AIPS version = /home/auto/aips/31DEC07/LINUX/SYSTEM/VLA_PIPE/aips Prep version = Dec 7 2007 /home/vlbacald-a/vlbacald/bin/AVLAPREP.001 Pipe version = Mar 19 2008 /home/vlbacald-a/vlbacald/bin/AVLAPIPE.001 Post version = Jan 23 2008 /home/vlbacald-a/vlbacald/bin/AVLAPOST.001 /home/vlbacald-a/vlbacald/run/AG0145_1987JUL14_1.3.run started on Thu Apr 9 23:38:37 MDT 2009 ------------- SETFC FILE FOR SOURCE 3C286 BELOW IS: C 1 4084 4084 13 31 08.29 30 30 33.0 00001 -1 2043 2048 2049 C 2 4084 4084 13 31 08.29 30 14 40.4 00002 -1 2043 2048 2049 C 3 4084 4084 13 30 04.54 30 22 35.7 00003 -1 2043 2048 2049 C 4 4084 4084 13 32 12.04 30 22 35.7 00004 -1 2043 2048 2049 C 5 4084 4084 13 30 04.37 30 38 28.3 00005 -1 2043 2048 2049 C 6 4084 4084 13 32 12.21 30 38 28.3 00006 -1 2043 2048 2049 C 7 4084 4084 13 31 08.29 30 46 25.5 00007 -1 2043 2048 2049 SETFC FILE FOR SOURCE 3C345 BELOW IS: C 1 4084 4084 16 42 58.81 39 48 37.0 00001 -1 2043 2048 2049 C 2 4084 4084 16 42 58.81 39 34 17.1 00002 -1 2043 2048 2049 C 3 4084 4084 16 41 54.30 39 41 25.9 00003 -1 2043 2048 2049 C 4 4084 4084 16 44 03.33 39 41 25.9 00004 -1 2043 2048 2049 C 5 4084 4084 16 41 54.07 39 55 45.8 00005 -1 2043 2048 2049 C 6 4084 4084 16 44 03.55 39 55 45.8 00006 -1 2043 2048 2049 C 7 4084 4084 16 42 58.81 40 02 56.9 00007 -1 2043 2048 2049 C 8 246 246 16 41 47.33 39 34 58.0 00008 -1 100 128 129 Pops Prior Date Time Task Messages for user20874 3 0 09-APR-2009 23:38:47 AIPS version'ABIN' 3 0 09-APR-2009 23:38:47 AIPS run avlaprep 3 2 09-APR-2009 23:38:47 AIPS Found in Version=ABIN 3 2 09-APR-2009 23:38:48 AIPS $ Lorant Sjouwerman, versions 1.. 2005, for NRAO 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS $$ General naming utilities - default to data disk 1 (safest of all) 3 2 09-APR-2009 23:38:48 AIPS procedure pipedef1 3 2 09-APR-2009 23:38:48 AIPS string*12 pnam 3 2 09-APR-2009 23:38:48 AIPS string*6 pcls 3 2 09-APR-2009 23:38:48 AIPS scalar pseq,pdsk 3 2 09-APR-2009 23:38:48 AIPS pdsk=1 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS pipedef1 3 2 09-APR-2009 23:38:48 AIPS procedure namepipe 3 2 09-APR-2009 23:38:48 AIPS pnam=inname;pcls=inclass;pseq=inseq;indisk=pdsk 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS procedure pipename 3 2 09-APR-2009 23:38:48 AIPS inname=pnam;inclass=pcls;inseq=pseq;indisk=pdsk 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure checkcat 3 2 09-APR-2009 23:38:48 AIPS $LOS - count and make sure catalog starts at one (and not more than 10 files) 3 2 09-APR-2009 23:38:48 AIPS scalar numcat 3 2 09-APR-2009 23:38:48 AIPS clrname;indisk=pdsk;chkname;numcat=1-error 3 2 09-APR-2009 23:38:48 AIPS $ for later: find out how to deal with CH0/LINE data in MOVE 3 2 09-APR-2009 23:38:48 AIPS if(numcat>0)then;recat;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS return numcat 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure gx 3 2 09-APR-2009 23:38:48 AIPS $ inputs 3 2 09-APR-2009 23:38:48 AIPS go;wait 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure pre_fillm 3 2 09-APR-2009 23:38:48 AIPS $LOS - sets VLA archive defaults for fillm 3 2 09-APR-2009 23:38:48 AIPS default fillm;outdisk=pdsk;doall=1;douvcomp=-1;cparm(8)=0.05;bparm(10)=0.75 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure fname 3 2 09-APR-2009 23:38:48 AIPS return inname!!'.'!!inclass!!'.'!!char(inseq) 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure shortname 3 2 09-APR-2009 23:38:48 AIPS scalar idx,nsrc,ll,ii,spc 3 2 09-APR-2009 23:38:48 AIPS string*12 newstrng 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';inext'SU';getthead;nsrc=keyvalue(1);keyword'';keyvalue 0 3 2 09-APR-2009 23:38:48 AIPS for idx=1:nsrc;pixxy=idx,2,1;tabget;ll=length(keystrng);newstrng'' 3 2 09-APR-2009 23:38:48 AIPS if(ll>12)then;spc=0;ll=1 3 2 09-APR-2009 23:38:48 AIPS while(spc=0&ll<17);substr(newstrng,ll,ll)=substr(keystrng,ll,ll) 3 2 09-APR-2009 23:38:48 AIPS if(substr(keystrng,ll,ll+1)=' ')then 3 2 09-APR-2009 23:38:48 AIPS if(spc=0)then;spc=1;substr(newstrng,ll,ll)='@';end 3 2 09-APR-2009 23:38:48 AIPS end;ll=ll+1;clrtemp;end;ii=ll 3 2 09-APR-2009 23:38:48 AIPS while(ll<17) 3 2 09-APR-2009 23:38:48 AIPS if(substr(keystrng,ll,ll)<>' ')then 3 2 09-APR-2009 23:38:48 AIPS substr(newstrng,ii,ii)=substr(keystrng,ll,ll);ii=ii+1 3 2 09-APR-2009 23:38:48 AIPS end;ll=ll+1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end;ll=length(newstrng);nsrc=min(12,ll) $ for safety during tests 3 2 09-APR-2009 23:38:48 AIPS if(ll>12)then;keystrng=newstrng;ll=ll+1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS for ii=1:nsrc;substr(newstrng,ii,ii)=substr(keystrng,ll-ii,ll-ii);end 3 2 09-APR-2009 23:38:48 AIPS end;task'TABED';clroname;inext'SU';optype'REPL';keyword'';keyvalue 0 3 2 09-APR-2009 23:38:48 AIPS aparm 2 1;bcount=idx;ecount=idx;keystrng=newstrng;go;wait;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure del 3 2 09-APR-2009 23:38:48 AIPS error=1;zap 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure numants 3 2 09-APR-2009 23:38:48 AIPS scalar numarow,numbout,numbant,numbase,idx;string*16 nameant 3 2 09-APR-2009 23:38:48 AIPS numbout=0;keyword'NUM ROW';inext'AN';invers=0;getthead;numarow=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS for numbant=1:numarow 3 2 09-APR-2009 23:38:48 AIPS pixxy=numbant,1,0;tabget;nameant=keystrng;idx=1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while(substr(nameant,idx,idx)<>':');idx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(substr(nameant,idx+1,idx+3)='OUT')then;numbout=numbout+1;end 3 2 09-APR-2009 23:38:48 AIPS if(substr(nameant,idx+2,idx+4)='OUT')then;numbout=numbout+1;end 3 2 09-APR-2009 23:38:48 AIPS end;numbase=(numarow-numbout);clrtemp 3 2 09-APR-2009 23:38:48 AIPS $ type char(numarow-numbout)!!' ANTENNAS',char(numbase)!!' BASELINES' 3 2 09-APR-2009 23:38:48 AIPS return numbase 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure skipdata 3 2 09-APR-2009 23:38:48 AIPS $LOS - delete unwanted data sets - currently all but continuum X and C bands 3 2 09-APR-2009 23:38:48 AIPS $ if(inclass='LINE')then;del;inclass'CH 0';del;type'ZAP LINE :'fname;end 3 2 09-APR-2009 23:38:48 AIPS if((inclass='CH 0')!(inclass='LINE'))then;del;type'ZAP LINE :'fname;end 3 2 09-APR-2009 23:38:48 AIPS if(inclass='4 BAND')then;del;type'ZAP 4-BAND :'fname;end 3 2 09-APR-2009 23:38:48 AIPS if(inclass='P BAND')then;del;type'ZAP P-BAND :'fname;end 3 2 09-APR-2009 23:38:48 AIPS $ if(inclass='L BAND')then;del;type'ZAP L-BAND :'fname;end 3 2 09-APR-2009 23:38:48 AIPS $ if(inclass='U BAND')then;del;type'ZAP U-BAND :'fname;end 3 2 09-APR-2009 23:38:48 AIPS $ if(inclass='K BAND')then;del;type'ZAP K-BAND :'fname;end 3 2 09-APR-2009 23:38:48 AIPS $ if(inclass='Q BAND')then;del;type'ZAP Q-BAND :'fname;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(error<1)then $ file not zapped, check for single dish vlbi; #vis=0 3 2 09-APR-2009 23:38:48 AIPS task'TABGET';userid 0;inext'NX';invers=0;keyvalue=0;keystrng'' 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';getthead;pixxy=keyvalue(1),6,0;tabget;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(keyvalue(1)=0)then;del;type'ZAP S-DISH :'fname;end 3 2 09-APR-2009 23:38:48 AIPS if(error<1)then;idx=numants $ file not zapped, check for # ants (<9) 3 2 09-APR-2009 23:38:48 AIPS if(idx<9)then;del;type'ZAP MINI-ARRAY ('!!char(idx)!!') :'!!fname 3 2 09-APR-2009 23:38:48 AIPS end;clrtemp;end;end 3 2 09-APR-2009 23:38:48 AIPS $also zap if solar/planetary/pulsar mode - su table proper motion?? 3 2 09-APR-2009 23:38:48 AIPS $ and what about PT-link? antenna VPT is not OUT, later also EVLA names 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure checkids 3 2 09-APR-2009 23:38:48 AIPS $LOS - account for fast switching source names - check on pos, qual, calco 3 2 09-APR-2009 23:38:48 AIPS scalar ra1a,ra1b,ra2a,ra2b,dc1a,dc1b,dc2a,dc2b,n,m,l,idx 3 2 09-APR-2009 23:38:48 AIPS scalar q1,q2,k,x,y1,y2 3 2 09-APR-2009 23:38:48 AIPS string*1 co1,co2 3 2 09-APR-2009 23:38:48 AIPS string*16 n1,n2 3 2 09-APR-2009 23:38:48 AIPS array alist(100),blist(100) 3 2 09-APR-2009 23:38:48 AIPS inext'SU';invers 0;keyword'NUM ROW';keyvalue 0;keystrng'';getthead 3 2 09-APR-2009 23:38:48 AIPS n=keyvalue(1);idx=1;aparm 0;bparm 0;alist 0;blist 0 3 2 09-APR-2009 23:38:48 AIPS if (n > 1) then 3 2 09-APR-2009 23:38:48 AIPS for m=1:(n-1);clrtemp 3 2 09-APR-2009 23:38:48 AIPS pixxy m,11;inext'SU';tabget;ra1a keyvalue(1);ra1b keyvalue(2) 3 2 09-APR-2009 23:38:48 AIPS for l=(m+1):n;clrtemp 3 2 09-APR-2009 23:38:48 AIPS pixxy l,11;tabget;ra2a keyvalue(1);ra2b keyvalue(2) 3 2 09-APR-2009 23:38:48 AIPS if (abs(ra1a-ra2a)=0) then 3 2 09-APR-2009 23:38:48 AIPS if ( abs((ra1b-ra2b)*3600*1000) < 3 ) then $ RA within 3 mas! 3 2 09-APR-2009 23:38:48 AIPS pixxy m,12;tabget;dc1a keyvalue(1);dc1b keyvalue(2) 3 2 09-APR-2009 23:38:48 AIPS pixxy l,12;tabget;dc2a keyvalue(1);dc2b keyvalue(2) 3 2 09-APR-2009 23:38:48 AIPS if (abs(dc1a-dc2a)=0) then 3 2 09-APR-2009 23:38:48 AIPS if ( abs((dc1b-dc2b)*3600*1000) < 3 ) then $ DC within 3 mas! 3 2 09-APR-2009 23:38:48 AIPS pixxy m,3;tabget;q1 keyvalue(1);pixxy l,3;tabget;q2 keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS $if one has zero vis then next checks not needed and declare/fix same source 3 2 09-APR-2009 23:38:48 AIPS inext'NX';keyword'NUM ROW';getthead;k=keyvalue(1);y1=0;y2=0 3 2 09-APR-2009 23:38:48 AIPS for x=1:k;pixxy x,3;tabget 3 2 09-APR-2009 23:38:48 AIPS if(keyval(1)=m)then;y1=y1+1;else; 3 2 09-APR-2009 23:38:48 AIPS if(keyval(1)=l)then;y2=y2+1;end;end 3 2 09-APR-2009 23:38:48 AIPS end $ if ((y1=0)!(y2=0)) then one has 0 visibilities: do dsorc 3 2 09-APR-2009 23:38:48 AIPS if (q1=q2)!((y1=0)!(y2=0)) then ;inext'SU' $ same calcode? 3 2 09-APR-2009 23:38:48 AIPS pixxy m,4;tabget;co1 keystrng;pixxy l,4;tabget;co2 keystrng 3 2 09-APR-2009 23:38:48 AIPS if (co1=co2)!((y1=0)!(y2=0)) then 3 2 09-APR-2009 23:38:48 AIPS pixxy m,1;tabget;q1 keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS pixxy l,1;tabget;q2 keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS pixxy m,2;tabget;n1 keystrng;pixxy l,2;tabget;n2 keystrng 3 2 09-APR-2009 23:38:48 AIPS if (idx>100) then; 3 2 09-APR-2009 23:38:48 AIPS type 'TOO MANY SOURCES TO DO DSORC - DO BY HAND!' 3 2 09-APR-2009 23:38:48 AIPS type 'NEXT =.'!!char(idx)!!' DO:'!!char(l)!!'.&.'!!char(m) 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS if (length(n1)1) then;task'DSORC';n=0 3 2 09-APR-2009 23:38:48 AIPS outname inname;outclass inclass;outseq inseq;outdisk indisk 3 2 09-APR-2009 23:38:48 AIPS while (n100)then;type'TOO MANY SOURCES FOR DSORC';error 1;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure checkcal 3 2 09-APR-2009 23:38:48 AIPS $LOS Currently (Sep 22, 2005) can/will do 3C286 and 3C48 at X and C 3 2 09-APR-2009 23:38:48 AIPS $LOS (and for now skip 3C286/3C48/3C138/3C147 Q,K,U and 3C48 L) 3 2 09-APR-2009 23:38:48 AIPS scalar idx,jdx 3 2 09-APR-2009 23:38:48 AIPS string*16 sname 3 2 09-APR-2009 23:38:48 AIPS task'TABGET';userid 0;inext'SU';invers=0;keyvalue=0;keystrng'';error=1 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';getthead;idx=keyvalue(1);clrtemp 3 2 09-APR-2009 23:38:48 AIPS for jdx=1:idx 3 2 09-APR-2009 23:38:48 AIPS pixxy=jdx,2,0;tabget;sname=substr(keystrng,1,length(keystrng)) 3 2 09-APR-2009 23:38:48 AIPS if(sname='3C286')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='3C48')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='3C138')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='3C147')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='3C295')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(error>0)then $ try B1950 name 3 2 09-APR-2009 23:38:48 AIPS if(sname='1328+307')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='0134+329')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='0518+165')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='0538+498')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='1409+524')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(error>0)then $ try J2000 3 2 09-APR-2009 23:38:48 AIPS if(sname='1331+305')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='0137+331')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='0521+166')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='0542+498')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='1411+522')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(error>0)then $ try J2000 name 3 2 09-APR-2009 23:38:48 AIPS if(sname='J1331+3030')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='J0137+3309')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='J0521+1638')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='J0542+4951')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(sname='J1411+5212')then;error=-1;jdx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS end;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS $ if error>0 check on coords (for different name than standard) 3 2 09-APR-2009 23:38:48 AIPS $ but keyval not reliable to do this.. ?? 3 2 09-APR-2009 23:38:48 AIPS $ end 3 2 09-APR-2009 23:38:48 AIPS if(error>0)then;del;type'ZAP - NO STD CAL SRC FOR :'fname;error=1 3 2 09-APR-2009 23:38:48 AIPS else;checkids;error=-1;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure j2000fix 3 2 09-APR-2009 23:38:48 AIPS $LOS - convert data to J2000 by default use of uvfix 3 2 09-APR-2009 23:38:48 AIPS task'UVFIX';outname=inname;outclass=inclass;outseq=inseq;outdisk=indisk 3 2 09-APR-2009 23:38:48 AIPS shift=0;uvfixprm=0;tput uvfix;outclass'PREFIX';rename;default tabget 3 2 09-APR-2009 23:38:48 AIPS tget uvfix;task'TABGET';inclass'PREFIX';inext'SU';pixxy 1,13,1;tabget 3 2 09-APR-2009 23:38:48 AIPS if (keyvalue(1)<1) then; tput tabget;default tabed;tget tabget 3 2 09-APR-2009 23:38:48 AIPS task'TABED';optype'REPL';aparm 13,0,0,2;keyvalue 1950.0 0;gx;end 3 2 09-APR-2009 23:38:48 AIPS tget uvfix;inclass'PREFIX';gx;zap;inclass=outclass;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure addcalco 3 2 09-APR-2009 23:38:48 AIPS $LOS - check for a calcode and add them if non-existent 3 2 09-APR-2009 23:38:48 AIPS scalar maxcat,maxrow,hasacode,m2d,fnd,ii,jj,kk 3 2 09-APR-2009 23:38:48 AIPS task'TABGET';inext'SU';keyword'NUM ROW';getthead 3 2 09-APR-2009 23:38:48 AIPS maxrow=keyvalue(1);hasacode=0;jj=0 3 2 09-APR-2009 23:38:48 AIPS while((jj' ')then;hasacode=1;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(hasacode=0)then;fnd=0;type 'SEARCHING SOURCES TO ADD CALIBRATOR CODES' 3 2 09-APR-2009 23:38:48 AIPS $ go through SU and check against calibrator list 3 2 09-APR-2009 23:38:48 AIPS $ maybe do this anyway for all sources and not skip if one (above) found 3 2 09-APR-2009 23:38:48 AIPS for jj=1:maxrow;clrtemp 3 2 09-APR-2009 23:38:48 AIPS pixxy=jj,2;tabget;error=0;syscom'grep -i 3 2 09-APR-2009 23:38:48 AIPS if(keystrng='J0137+3309')then;keystrng'0137+331';end 3 2 09-APR-2009 23:38:48 AIPS if(keystrng='J0521+1638')then;keystrng'0521+166';end 3 2 09-APR-2009 23:38:48 AIPS if(keystrng='J0542+4951')then;keystrng'0542+498';end 3 2 09-APR-2009 23:38:48 AIPS if(keystrng='J1331+3030')then;keystrng'1331+305';end 3 2 09-APR-2009 23:38:48 AIPS if(keystrng='J1411+5212')then;keystrng'1411+522';end 3 2 09-APR-2009 23:38:48 AIPS if((substr(keystrng,1,1)='J')&(substr(keystrng,2,2)<>'U'))then 3 2 09-APR-2009 23:38:48 AIPS m2d=floor(value(substr(keystrng,9,10))/6);keystrng=substr(keystrng,2,8) 3 2 09-APR-2009 23:38:48 AIPS sys2com(1)'X'!!keystrng!!char(m2d);else;sys2com(1)'X'!!keystrng 3 2 09-APR-2009 23:38:48 AIPS end;clrtemp;kk=1;ii=length(keystrng) $ safeguard against spaces in name 3 2 09-APR-2009 23:38:48 AIPS while((kk<=ii)&(substr(keystrng,kk,kk)<>''));kk=kk+1;end;m2d=kk+1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(m2d>1)then;for kk=m2d:ii;substr(keystrng,kk,kk)=' ';end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS sys2com(2)'X'!!'/users/lsjouwer/calvlaobs/csource.mas 3 2 09-APR-2009 23:38:48 AIPS keyvalue=0;substr(sys2com(1),1,1)'';substr(sys2com(2),1,1)'';clrtemp 3 2 09-APR-2009 23:38:48 AIPS system;keystrng'Y';if(error=-1)then;fnd=fnd+1;pixxy=jj,4;tabput;end;end 3 2 09-APR-2009 23:38:48 AIPS if(fnd>0)then;type char(fnd)!!' CALCODES ADDED' $ ZAP if no code found 3 2 09-APR-2009 23:38:48 AIPS else;type'ERROR: PIPELINE WILL FAIL TO COMPLETE (NO CALS)';zap;end;end;end 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure datachks 3 2 09-APR-2009 23:38:48 AIPS $LOS - delete unwanted data sets, check for standard calibrators and make J2000 3 2 09-APR-2009 23:38:48 AIPS if(error<1)then $ file exists 3 2 09-APR-2009 23:38:48 AIPS skipdata;if(error<1)then $ file was not zapped 3 2 09-APR-2009 23:38:48 AIPS checkcal;if(error<1)then $ file has standard calibrator in it 3 2 09-APR-2009 23:38:48 AIPS addcalco 3 2 09-APR-2009 23:38:48 AIPS shortname 3 2 09-APR-2009 23:38:48 AIPS j2000fix 3 2 09-APR-2009 23:38:48 AIPS end;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure freqchks 3 2 09-APR-2009 23:38:48 AIPS $LOS - split up in frequency IDs, run INDXR, and remove 3 2 09-APR-2009 23:38:48 AIPS scalar rows, nfrq 3 2 09-APR-2009 23:38:48 AIPS if(error<1)then $ file exists 3 2 09-APR-2009 23:38:48 AIPS inext'FQ';invers=1;keyword='NUM ROW';getthead;nfrq=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS if (nfrq > 1) then 3 2 09-APR-2009 23:38:48 AIPS if (nfrq > 9) then;type' WARNING! MORE THAN 9 FREQUENCY ID-S!';end 3 2 09-APR-2009 23:38:48 AIPS tput getthead;default'UVCOP';tget getthead;keyword='';task'UVCOP';tput 3 2 09-APR-2009 23:38:48 AIPS for rows=1:nfrq 3 2 09-APR-2009 23:38:48 AIPS pixxy=rows,1,1;inver=1;inext='FQ';tabget;tget;freqid=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS outclass=substr(inclass,1,1)!!substr(inclass,3,6)!!char(freqid) 3 2 09-APR-2009 23:38:48 AIPS type'COPYING FREQUENCY ID #'!!char(freqid);gx 3 2 09-APR-2009 23:38:48 AIPS default'INDXR';tget uvcop;task'INDXR';inclass outclass;gx;task'DQUAL' 3 2 09-APR-2009 23:38:48 AIPS $out not in! ** outname=inname;outclass=inclass;outseq=inseq;outdisk=indisk;gx 3 2 09-APR-2009 23:38:48 AIPS tget uvcop;freqid=1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end;end;end;if(nfrq>1)then;type fname!!' SPLIT IN :'!!char(nfrq);zap;end 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure pre_move 3 2 09-APR-2009 23:38:48 AIPS $LOS - moves file to another AIPS user number 3 2 09-APR-2009 23:38:48 AIPS default move;indisk=pdsk;outseq=-1;opcode'MOVE';clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure expid 3 2 09-APR-2009 23:38:48 AIPS string*20 expnm 3 2 09-APR-2009 23:38:48 AIPS string*75 expmsg 3 2 09-APR-2009 23:38:48 AIPS return expnm 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS type expid 3 5 09-APR-2009 23:38:48 AIPS ' ' 3 0 09-APR-2009 23:38:48 AIPS run avlapipe 3 2 09-APR-2009 23:38:48 AIPS Found in Version=ABIN 3 2 09-APR-2009 23:38:48 AIPS $ 3 2 09-APR-2009 23:38:48 AIPS $ Ver 1.0 : Copy of private Ver 3.0 of VLARUN (public version is 2.5): 3 2 09-APR-2009 23:38:48 AIPS $ was 3.0 : Add PLVER (in goplt) for plot files and to include TASAV (12MAY04) 3 2 09-APR-2009 23:38:48 AIPS $ Repositioned inseq=0 to safeguard to SU-tab confusion (12NOV04) 3 2 09-APR-2009 23:38:48 AIPS $ Rearanged inputs and options, added integration time calculation, 3 2 09-APR-2009 23:38:48 AIPS $ QUACK, selective plotting, INNAME vs DOCAT, alternative flux cal, 3 2 09-APR-2009 23:38:48 AIPS $ selective imaging, SCIMG for targets, use model in CALIB, find VLA 3 2 09-APR-2009 23:38:48 AIPS $ array, use model,.. 3 2 09-APR-2009 23:38:48 AIPS $ 3 2 09-APR-2009 23:38:48 AIPS $Next vers add polarization calibration, SCIMG->SCIMG? 3 2 09-APR-2009 23:38:48 AIPS $ find imsize, find cutoffflux, include infile 3 2 09-APR-2009 23:38:48 AIPS $--------------------------------------------------------------- 3 2 09-APR-2009 23:38:48 AIPS $0000000011111111112222222222333333333344444444445555555555666666666677777777778 3 2 09-APR-2009 23:38:48 AIPS $2345678901234567890123456789012345678901234567890123456789012345678901234567890 3 2 09-APR-2009 23:38:48 AIPS $=============================================== 3 2 09-APR-2009 23:38:48 AIPS $! Calibrating amplitude and phase, and imaging VLA data 3 2 09-APR-2009 23:38:48 AIPS $# RUN POPS VLA UTILITY CALIBRATION IMAGING 3 2 09-APR-2009 23:38:48 AIPS $--------------------------------------------------------------- 3 2 09-APR-2009 23:38:48 AIPS $; Copyright (C) 2002-2006 3 2 09-APR-2009 23:38:48 AIPS $; Associated Universities, Inc. Washington DC, USA. 3 2 09-APR-2009 23:38:48 AIPS $; 3 2 09-APR-2009 23:38:48 AIPS $; This program is free software; you can redistribute it and/or 3 2 09-APR-2009 23:38:48 AIPS $; modify it under the terms of the GNU General Public License as 3 2 09-APR-2009 23:38:48 AIPS $; published by the Free Software Foundation; either version 2 of 3 2 09-APR-2009 23:38:48 AIPS $; the License, or (at your option) any later version. 3 2 09-APR-2009 23:38:48 AIPS $; 3 2 09-APR-2009 23:38:48 AIPS $; This program is distributed in the hope that it will be useful, 3 2 09-APR-2009 23:38:48 AIPS $; but WITHOUT ANY WARRANTY; without even the implied warranty of 3 2 09-APR-2009 23:38:48 AIPS $; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 3 2 09-APR-2009 23:38:48 AIPS $; GNU General Public License for more details. 3 2 09-APR-2009 23:38:48 AIPS $; 3 2 09-APR-2009 23:38:48 AIPS $; You should have received a copy of the GNU General Public 3 2 09-APR-2009 23:38:48 AIPS $; License along with this program; if not, write to the Free 3 2 09-APR-2009 23:38:48 AIPS $; Software Foundation, Inc., 675 Massachusetts Ave, Cambridge, 3 2 09-APR-2009 23:38:48 AIPS $; MA 02139, USA. 3 2 09-APR-2009 23:38:48 AIPS $; 3 2 09-APR-2009 23:38:48 AIPS $; Correspondence concerning AIPS should be addressed as follows: 3 2 09-APR-2009 23:38:48 AIPS $; Internet email: aipsmail@nrao.edu. 3 2 09-APR-2009 23:38:48 AIPS $; Postal address: AIPS Project Office 3 2 09-APR-2009 23:38:48 AIPS $; National Radio Astronomy Observatory 3 2 09-APR-2009 23:38:48 AIPS $; 520 Edgemont Road 3 2 09-APR-2009 23:38:48 AIPS $; Charlottesville, VA 22903-2475 USA 3 2 09-APR-2009 23:38:48 AIPS $--------------------------------------------------------------- 3 2 09-APR-2009 23:38:48 AIPS $=============================================================== 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure pipeinit 3 2 09-APR-2009 23:38:48 AIPS scalar lsdisk,lsname,lsrant,lscont,lserr,lsplot,lsflag,k,lsflux,lstarg,lsmodl 3 2 09-APR-2009 23:38:48 AIPS scalar lsids,star,tint,fsw,kj 3 2 09-APR-2009 23:38:48 AIPS string*2 lstyp 3 2 09-APR-2009 23:38:48 AIPS string*3 lsvla 3 2 09-APR-2009 23:38:48 AIPS string*6 lsidc,lsstrng 3 2 09-APR-2009 23:38:48 AIPS string*16 lsidn,lscal,lsobj 3 2 09-APR-2009 23:38:48 AIPS string*16 lsampcal(20),lsbndcal(5),lsphacal(20),lspntcal(25),lsallcal(30), 3 2 09-APR-2009 23:38:48 AIPS array lsbadd(10),lsparm(16),lssid(1000) $ D=1,C=3.3,B=10.8,A=35.4,PT=73 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS pipeinit 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure shortname 3 2 09-APR-2009 23:38:48 AIPS scalar idx,nsrc,ll,ii,spc 3 2 09-APR-2009 23:38:48 AIPS string*12 newstrng 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';inext'SU';getthead;nsrc=keyvalue(1);keyword'';keyvalue 0 3 2 09-APR-2009 23:38:48 AIPS for idx=1:nsrc;pixxy=idx,2,1;tabget;ll=length(keystrng);newstrng'' 3 2 09-APR-2009 23:38:48 AIPS if(ll>12)then;spc=0;ll=1 3 2 09-APR-2009 23:38:48 AIPS while(spc=0&ll<17);substr(newstrng,ll,ll)=substr(keystrng,ll,ll) 3 2 09-APR-2009 23:38:48 AIPS if(substr(keystrng,ll,ll+1)=' ')then 3 2 09-APR-2009 23:38:48 AIPS if(spc=0)then;spc=1;substr(newstrng,ll,ll)='@';end 3 2 09-APR-2009 23:38:48 AIPS end;ll=ll+1;clrtemp;end;ii=ll 3 2 09-APR-2009 23:38:48 AIPS while(ll<17) 3 2 09-APR-2009 23:38:48 AIPS if(substr(keystrng,ll,ll)<>' ')then 3 2 09-APR-2009 23:38:48 AIPS substr(newstrng,ii,ii)=substr(keystrng,ll,ll);ii=ii+1 3 2 09-APR-2009 23:38:48 AIPS end;ll=ll+1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end;ll=length(newstrng);nsrc=min(12,ll) $ for safety during tests 3 2 09-APR-2009 23:38:48 AIPS if(ll>12)then;keystrng=newstrng;ll=ll+1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS for ii=1:nsrc;substr(newstrng,ii,ii)=substr(keystrng,ll-ii,ll-ii);end 3 2 09-APR-2009 23:38:48 AIPS end;task'TABED';clroname;inext'SU';optype'REPL';keyword'';keyvalue 0 3 2 09-APR-2009 23:38:48 AIPS aparm 2 1;bcount=idx;ecount=idx;keystrng=newstrng;go;wait;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure longname 3 2 09-APR-2009 23:38:48 AIPS scalar idx,nsrc,ii 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';inext'SU';getthead;nsrc=keyvalue(1);keyword'';keyvalue 0;ii=0 3 2 09-APR-2009 23:38:48 AIPS for idx=1:nsrc;pixxy=idx,2,1;tabget;if(length(keystrng)>12)then;ii=ii+1;end;end 3 2 09-APR-2009 23:38:48 AIPS if(ii>0)then;lserr=9 3 2 09-APR-2009 23:38:48 AIPS type'!';type'! WARNING: SOURCE NAMES TOO LONG: VLARUN WILL NOT RUN PROPERLY' 3 2 09-APR-2009 23:38:48 AIPS type'!';type'! - if this is planetary data, rerun FILLM with CPARM(2) >= 16 3 2 09-APR-2009 23:38:48 AIPS type'! - if this is a mozaic, rename the fields with the same field 3 2 09-APR-2009 23:38:48 AIPS type'! names in the SU-table to something unique <= 12 characters 3 2 09-APR-2009 23:38:48 AIPS type'! in TABED or use the predefined procedure shortname on the 3 2 09-APR-2009 23:38:48 AIPS type'! catalog data (remember to do it on both CH0 and LINE if it 3 2 09-APR-2009 23:38:48 AIPS type'! is line data) 3 2 09-APR-2009 23:38:48 AIPS type'! - if you just have long source names, make them short in the 3 2 09-APR-2009 23:38:48 AIPS type'! SU-table (<=12 char) and unique using TABED or "shortname" 3 2 09-APR-2009 23:38:48 AIPS type'!';type'! --- EXITING VLARUN so you can fix this first --- 3 2 09-APR-2009 23:38:48 AIPS type'! ('!!char(ii)!!' sources need to be fixed in the SU-table) 3 2 09-APR-2009 23:38:48 AIPS type'!';end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure pipeinpt 3 2 09-APR-2009 23:38:48 AIPS lsampcal '3C48', '0134+329','0137+331','J0137+3309' 3 2 09-APR-2009 23:38:48 AIPS lsampcal(5)~ '3C138','0518+165','0521+166','J0521+1638' 3 2 09-APR-2009 23:38:48 AIPS lsampcal(9)~ '3C147','0538+498','0542+498','J0542+4951' 3 2 09-APR-2009 23:38:48 AIPS lsampcal(13)~'3C286','1328+307','1331+305','J1331+3030' 3 2 09-APR-2009 23:38:48 AIPS lsampcal(17)~'3C295','1409+524','1411+522','J1411+5212' 3 2 09-APR-2009 23:38:48 AIPS lserr=0;lsbadd=baddisk;lsdisk=indisk;lsname=docat 3 2 09-APR-2009 23:38:48 AIPS lsidn=inname;lsidc=inclass;lsids=inseq;lstyp'UV';fsw=doalign;lsflag=flagver 3 2 09-APR-2009 23:38:48 AIPS lsparm(2)=solint;lsparm(13)=factor;lsrant=refant;lsmodl=domodel 3 2 09-APR-2009 23:38:48 AIPS lscal=keystrng;lsflux=flux;lsparm(3)=uvrange(1);lsparm(4)=uvrange(2) 3 2 09-APR-2009 23:38:48 AIPS for k=1:20;lsphacal(k)=sources(k);end;for k=1:5;lsbndcal(k)=calsour(k);end 3 2 09-APR-2009 23:38:48 AIPS lsparm(11)=dopol;lsparm(12)=bpa;lscont=docont;lsplot=plver;lsparm(1)=doall 3 2 09-APR-2009 23:38:48 AIPS lsparm(5)=doarray;lsparm(6)=imsize(1);lsparm(7)=niter;lsparm(8)=cutoff 3 2 09-APR-2009 23:38:48 AIPS lsparm(9)=docal;lsparm(10)=doresid 3 2 09-APR-2009 23:38:48 AIPS $ check input values 3 2 09-APR-2009 23:38:48 AIPS $->lsbadd 3 2 09-APR-2009 23:38:48 AIPS if (lsdisk<=0) then;lserr=1;type'SPECIFY THE INDISK';end 3 2 09-APR-2009 23:38:48 AIPS if(lsname<=0)then;inname=lsidn;inclass=lsidc;inseq=lsids;intype=lstyp;chkname 3 2 09-APR-2009 23:38:48 AIPS if (error<>0) then 3 2 09-APR-2009 23:38:48 AIPS lserr=2; type 'SPECIFY INNAME, ETC, OR THE CATALOG NUMBER = DOCAT' 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS userid=0;k=1;lsname=0 3 2 09-APR-2009 23:38:48 AIPS while (lsname=0);egetname k 3 2 09-APR-2009 23:38:48 AIPS if (( (lsidn=inname)&(lsidc=inclass) )&(lsids=inseq)) then 3 2 09-APR-2009 23:38:48 AIPS lsname=k;lsidn=inname;lsidc=inclass;lsids=inseq;lstyp=intype 3 2 09-APR-2009 23:38:48 AIPS else;k=k+1;end;end;end;else 3 2 09-APR-2009 23:38:48 AIPS if ( ((inname <> '')!(inclass <> '')) ! (inseq <> 0) ) then 3 2 09-APR-2009 23:38:48 AIPS lserr=2; type 'DO NOT SPECIFY BOTH INNAME, ETC, AND VARIABLE DOCAT' 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS getname(lsname);lsidn=inname;lsidc=inclass;lsids=inseq;lstyp=intype 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS $->inname 3 2 09-APR-2009 23:38:48 AIPS $->inclass 3 2 09-APR-2009 23:38:48 AIPS $->inseq 3 2 09-APR-2009 23:38:48 AIPS $->fsw 3 2 09-APR-2009 23:38:48 AIPS $->lsflag 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(2)<=0) then; lserr=3; type 'SPECIFY THE SOLUTION INTERVAL';end 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(13)<1)then;lsparm(13)=1;type'FACTOR<1 QUESTIONABLE, SET TO 1';end 3 2 09-APR-2009 23:38:48 AIPS if (lsrant<=0)then;lsrant=0;type'AIPS WILL CHOOSE THE REFERENCE ANTENNA';end 3 2 09-APR-2009 23:38:48 AIPS if ( (lsmodl>0) & (length(lscal)>0) ) then 3 2 09-APR-2009 23:38:48 AIPS lserr=4;type 'CANNOT USE STANDARD SOURCE MODEL FOR ALTERNATIVE CALIBRATOR' 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS $->lscal 3 2 09-APR-2009 23:38:48 AIPS if (length(lscal)<>0) then 3 2 09-APR-2009 23:38:48 AIPS type 'USING NON-STANDARD AMPLITUDE CALIBRATOR, FLUX, UVRANGE :' 3 2 09-APR-2009 23:38:48 AIPS type lscal, lsflux, lsparm(3), lsparm(4);lsampcal='';lsampcal(1)=lscal 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS $->lsflux 3 2 09-APR-2009 23:38:48 AIPS $-> #3+#4 uvrange 3 2 09-APR-2009 23:38:48 AIPS for i=1:20;for j=1:16;if(substr(lsphacal(i),j,j)='*')then;if (lserr<>7) then 3 2 09-APR-2009 23:38:48 AIPS if((i=1)&(j=1))then;star=1;else 3 2 09-APR-2009 23:38:48 AIPS star=-1;lserr=7;type'ONLY USE * IN THE 1ST CHARACTER OF THE 1ST SOURCE' 3 2 09-APR-2009 23:38:48 AIPS end;end;end;end;clrtemp;end 3 2 09-APR-2009 23:38:48 AIPS if (lsname>0) then; indisk=lsdisk; getname(lsname);longname;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (inclass='CH 0') then;inclass='LINE';longname;inclass='CH 0';end 3 2 09-APR-2009 23:38:48 AIPS if ( (inclass='CH 0') & (substr(lsbndcal(1),1,1) = ' ') ) then 3 2 09-APR-2009 23:38:48 AIPS lserr=8;type 'SPECIFY THE BANDPASS CALIBRATOR = CALSOUR' 3 2 09-APR-2009 23:38:48 AIPS end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS $-> #11 dopol 3 2 09-APR-2009 23:38:48 AIPS $-> #12 bpa 3 2 09-APR-2009 23:38:48 AIPS $->lscont 3 2 09-APR-2009 23:38:48 AIPS $->lsplot 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(1) > 0) then 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(5)<0) then;type 'SETFC WILL DETERMINE THE CELL SIZE' 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(5)=0) then 3 2 09-APR-2009 23:38:48 AIPS keyword='TELESCOP';gethead 3 2 09-APR-2009 23:38:48 AIPS if (substr(keystrng,1,3)<>'VLA') then 3 2 09-APR-2009 23:38:48 AIPS lserr=5; type 'CANNOT DETERMINE ARRAY - THIS IS NOT THE VLA' 3 2 09-APR-2009 23:38:48 AIPS else;keyword'NUM ROW';inext'AN';invers=0;getthead;k=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS for j=1:k 3 2 09-APR-2009 23:38:48 AIPS pixxy=j,1,0;tabget;i=1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while((substr(keystrng,i,i)<>':')&(i<9));i=i+1;end 3 2 09-APR-2009 23:38:48 AIPS if ((substr(keystrng,i+1,i+1)<>' ')&(substr(keystrng,i+1,i+1)<>'_'))then 3 2 09-APR-2009 23:38:48 AIPS lsvla=substr(keystrng,i+1,i+3);else 3 2 09-APR-2009 23:38:48 AIPS lsvla=substr(keystrng,i+2,i+4);end 3 2 09-APR-2009 23:38:48 AIPS if ((lsvla<>'OUT')&(lsvla<>'MPD'))then 3 2 09-APR-2009 23:38:48 AIPS if (lsvla='VPT')then;lsparm(5)=75;else 3 2 09-APR-2009 23:38:48 AIPS if ((substr(keystrng,i+1,i+1)<>' ')&(substr(keystrng,i+1,i+1)<>'_'))then 3 2 09-APR-2009 23:38:48 AIPS keyword=substr(keystrng,i+2,i+8);else 3 2 09-APR-2009 23:38:48 AIPS keyword=substr(keystrng,i+3,i+9);end 3 2 09-APR-2009 23:38:48 AIPS lsparm(5)=max(lsparm(5),value(keyword));clrtemp;end;end;end 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(5)<75) then;if (lsparm(5)>36) then;lsparm(5)=36;else 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(5)>18) then;lsparm(5)=11;else 3 2 09-APR-2009 23:38:48 AIPS if(lsparm(5)>9)then;lsparm(5)=3.5;else;lsparm(5)=1;end;end;end;end 3 2 09-APR-2009 23:38:48 AIPS end;if(lsparm(5)=0)then;lserr=5;type'WHAT ARRAY?! USE DOARRAY';else 3 2 09-APR-2009 23:38:48 AIPS if(lsparm(5)>0)then 3 2 09-APR-2009 23:38:48 AIPS type char(lsparm(5))!!' KILOMETERS WILL BE USED AS MAXIMUM BASELINE' 3 2 09-APR-2009 23:38:48 AIPS end;end;end;end 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(6)>=0)then;if((lsparm(6)<128)!(imsize(2)<128))then 3 2 09-APR-2009 23:38:48 AIPS lserr=6; type 'SPECIFY THE IMSIZE CORRECTLY (>127 OR <0)';end;end 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS $-> #7 niter 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(7) < 0) then; lsparm(7) = 7e4; end 3 2 09-APR-2009 23:38:48 AIPS $-> #8 cutoff 3 2 09-APR-2009 23:38:48 AIPS $-> #9 docal 3 2 09-APR-2009 23:38:48 AIPS $-> #10 doresid 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure getidn 3 2 09-APR-2009 23:38:48 AIPS indisk=lsdisk;inname=lsidn;inclass=lsidc;inseq=lsids;intype=lstyp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure gx 3 2 09-APR-2009 23:38:48 AIPS $ inputs 3 2 09-APR-2009 23:38:48 AIPS go;wait 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure getset 3 2 09-APR-2009 23:38:48 AIPS default;getidn;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure lsclrcal 3 2 09-APR-2009 23:38:48 AIPS $ consolidate lists, deal with calcode='*' later 3 2 09-APR-2009 23:38:48 AIPS scalar lsidx,l,m,n 3 2 09-APR-2009 23:38:48 AIPS task'TABGET';getset;inext'NX';invers 0;keyvalue=0;keystrng'' 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';getthead;lsidx=keyvalue(1);clrtemp;n=0;lssid=0 3 2 09-APR-2009 23:38:48 AIPS if (keyvalue(1)>1000)then;type'WARNING: MORE THAN 1000 SCANS !';end 3 2 09-APR-2009 23:38:48 AIPS for i=1:lsidx $ remember source number 3 2 09-APR-2009 23:38:48 AIPS pixxy=i,3,0;tabget;error=0 3 2 09-APR-2009 23:38:48 AIPS for l=1:n;if(lssid(l)=keyvalue(1))then;error=1;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(error=0)then;n=n+1;lssid(n)=keyvalue(1);end 3 2 09-APR-2009 23:38:48 AIPS end;inext'SU';invers 0;keyvalue=0;keystrng'';keyword'NUM ROW' 3 2 09-APR-2009 23:38:48 AIPS getthead;lsidx=keyvalue(1);clrtemp;sources'';l=1;m=1;n=1 3 2 09-APR-2009 23:38:48 AIPS for i=1:lsidx 3 2 09-APR-2009 23:38:48 AIPS pixxy=i,2,0;tabget;k=length(keystrng);j=0;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while (j<20);j=j+1;if (substr(lsampcal(j),1,k)=substr(keystrng,1,k)) then 3 2 09-APR-2009 23:38:48 AIPS lsampcal(l)=lsampcal(j);j=30;lsparm(14)=l;l=l+1;end;end;j=0;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while (j<20);j=j+1;if (substr(lsphacal(j),1,k)=substr(keystrng,1,k)) then 3 2 09-APR-2009 23:38:48 AIPS lsphacal(m)=lsphacal(j);j=30;lsparm(15)=m;m=m+1;end;end;j=0;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while (j<5);j=j+1;if (substr(lsbndcal(j),1,k)=substr(keystrng,1,k)) then 3 2 09-APR-2009 23:38:48 AIPS lsbndcal(n)=lsbndcal(j);j=30;lsparm(16)=n;n=n+1;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end;lspntcal'';lsallcal'';for j=l:20;lsampcal(j)='';end 3 2 09-APR-2009 23:38:48 AIPS for j=m:20;lsphacal(j)='';end;for j=n:5;lsbndcal(j)='';end 3 2 09-APR-2009 23:38:48 AIPS for j=1:lsparm(15);lspntcal(j)=lsphacal(j);end;k=lsparm(15) 3 2 09-APR-2009 23:38:48 AIPS for j=1:lsparm(16);lspntcal(j+k)=lsbndcal(j);end;j=0;l=1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while (j<(lsparm(15)+lsparm(16)));j=j+1;if (length(lspntcal(j))>0) then 3 2 09-APR-2009 23:38:48 AIPS lspntcal(l)=lspntcal(j);if(l<>j)then;lspntcal(j)='';end;l=l+1;end;end 3 2 09-APR-2009 23:38:48 AIPS $here - clean up pnt cal for doubles - subtract from total count below 3 2 09-APR-2009 23:38:48 AIPS k=lsparm(15)+lsparm(16);for j=1:k;lsallcal(j)=lspntcal(j);end;l=1 3 2 09-APR-2009 23:38:48 AIPS for j=1:lsparm(14);i=length(lsampcal(j));lsidx=0;m=j 3 2 09-APR-2009 23:38:48 AIPS while ((lsidx0) then;lsallcal(l)=lsallcal(j) 3 2 09-APR-2009 23:38:48 AIPS if(l<>j)then;lsallcal(j)='';end;l=l+1;end;end 3 2 09-APR-2009 23:38:48 AIPS $typ 'LSAMPCAL, LSPHACAL, LSBNDCAL, LSPNTCAL, AND LSALLCAL :' 3 2 09-APR-2009 23:38:48 AIPS $typ lsampcal; typ lsphacal; typ lsbndcal; typ lspntcal; typ lsallcal 3 2 09-APR-2009 23:38:48 AIPS return;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure numtab(lsstrng) 3 2 09-APR-2009 23:38:48 AIPS keystrng'';j=0;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while ((j<15)&(keystrng<>lsstrng)) 3 2 09-APR-2009 23:38:48 AIPS j=j+1;keyword'EXTYPE'!!char(j);gethead;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (keystrng=lsstrng) then 3 2 09-APR-2009 23:38:48 AIPS keyword'EXTVER'!!char(j);gethead;else;keyvalue=0;end 3 2 09-APR-2009 23:38:48 AIPS keyword'';keystrng'';clrtemp 3 2 09-APR-2009 23:38:48 AIPS return keyvalue(1);finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure numbasel 3 2 09-APR-2009 23:38:48 AIPS scalar numarow,numbout,numbant,numbase,idx;string*16 nameant 3 2 09-APR-2009 23:38:48 AIPS numbout=0;keyword'NUM ROW';inext'AN';invers=0;getthead;numarow=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS for numbant=1:numarow 3 2 09-APR-2009 23:38:48 AIPS pixxy=numbant,1,0;tabget;nameant=keystrng;idx=1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while(substr(nameant,idx,idx)<>':');idx=idx+1;end 3 2 09-APR-2009 23:38:48 AIPS if(substr(nameant,idx+1,idx+3)='OUT')then;numbout=numbout+1;end 3 2 09-APR-2009 23:38:48 AIPS if(substr(nameant,idx+2,idx+4)='OUT')then;numbout=numbout+1;end 3 2 09-APR-2009 23:38:48 AIPS end;numbase=(numarow-numbout)*(numarow-numbout-1)/2;clrtemp 3 2 09-APR-2009 23:38:48 AIPS $ type char(numarow-numbout)!!' ANTENNAS',char(numbase)!!' BASELINES' 3 2 09-APR-2009 23:38:48 AIPS return numbase 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure calcintt 3 2 09-APR-2009 23:38:48 AIPS scalar numxrow,numscan,numbbeg,numbend,numcnst,sum,avr,rms,rmax;rmax=300 3 2 09-APR-2009 23:38:48 AIPS array interval(1000),numbvis(1000);avr=0;if(rmax>1000)then;rmax=1000;end 3 2 09-APR-2009 23:38:48 AIPS if (numtab('NX')<1) then;type'NOT MULTISOURCE - NO INTTIME CALCULATED' 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';inext'NX';invers 0;getthead;numxrow=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS if(numxrow>rmax)then;numxrow rmax;end 3 2 09-APR-2009 23:38:48 AIPS for numscan=1:numxrow;clrtemp 3 2 09-APR-2009 23:38:48 AIPS pixxy=numscan,2,0;tabget;interval(numscan)=86400*keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS pixxy=numscan,5,0;tabget;numbbeg=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS pixxy=numscan,6,0;tabget;numbend=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS numbvis(numscan)=numbend-numbbeg+1;avr=max(avr,numbvis(numscan)) 3 2 09-APR-2009 23:38:48 AIPS end;numcnst=numbasel;sum=0 3 2 09-APR-2009 23:38:48 AIPS if (avr > 0) then 3 2 09-APR-2009 23:38:48 AIPS for numscan=1:numxrow;if (numbvis(numscan)>0) then 3 2 09-APR-2009 23:38:48 AIPS sum=sum+( (numcnst*interval(numscan)) / numbvis(numscan) ) 3 2 09-APR-2009 23:38:48 AIPS end;end;clrtemp;avr=sum/numxrow;sum=0 3 2 09-APR-2009 23:38:48 AIPS for numscan=1:numxrow;if (numbvis(numscan)>0) then 3 2 09-APR-2009 23:38:48 AIPS sum=sum+((numcnst*interval(numscan))/numbvis(numscan)-avr)**2 3 2 09-APR-2009 23:38:48 AIPS end;end;clrtemp;rms=sum/numxrow;clrtemp;end 3 2 09-APR-2009 23:38:48 AIPS $ type char(numxrow)!!' SCANS/SAMPLES WITH RMS(SEC) +/-'!!char(rms) 3 2 09-APR-2009 23:38:48 AIPS $ type char(avr)!!' SECOND INTEGRATIONS (APPROXIMATELY)' 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS return avr 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure guesintt 3 2 09-APR-2009 23:38:48 AIPS scalar intcst,intavr,intmod,intime 3 2 09-APR-2009 23:38:48 AIPS intavr=calcintt;intcst=intavr;keyword'TELESCOP';gethead 3 2 09-APR-2009 23:38:48 AIPS if (keystrng='VLA') then;intcst=1+(2/3);end 3 2 09-APR-2009 23:38:48 AIPS if (keystrng='VLBA') then;intcst=0.131072;end 3 2 09-APR-2009 23:38:48 AIPS if (intcst=intavr) then;type'UNKNOWN TELESCOPE :'!!keystrng;end 3 2 09-APR-2009 23:38:48 AIPS if (intavr>10) then 3 2 09-APR-2009 23:38:48 AIPS $ intime=10*floor(0.5+(intavr/10)) 3 2 09-APR-2009 23:38:48 AIPS intime=10*floor(intavr/10) 3 2 09-APR-2009 23:38:48 AIPS else;if (intavr>0) then 3 2 09-APR-2009 23:38:48 AIPS intmod=mod(intavr,intcst) 3 2 09-APR-2009 23:38:48 AIPS $ intime=intcst*((intavr-intmod)/intcst+floor(0.5+(intmod/intcst))) 3 2 09-APR-2009 23:38:48 AIPS intime=intcst*((intavr-intmod)/intcst+floor(intmod/intcst)) 3 2 09-APR-2009 23:38:48 AIPS else;intime=intavr;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(numtab('NX')>0)then;type char(intime)!!' SECOND INTEGRATIONS (GUESS)';end 3 2 09-APR-2009 23:38:48 AIPS return intime 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure checkids 3 2 09-APR-2009 23:38:48 AIPS $LOS - account for fast switching source names - check on pos, qual, calco 3 2 09-APR-2009 23:38:48 AIPS scalar ra1a,ra1b,ra2a,ra2b,dc1a,dc1b,dc2a,dc2b,n,m,l,idx 3 2 09-APR-2009 23:38:48 AIPS scalar q1,q2,k,x,y1,y2 3 2 09-APR-2009 23:38:48 AIPS string*1 co1,co2 3 2 09-APR-2009 23:38:48 AIPS string*16 n1,n2 3 2 09-APR-2009 23:38:48 AIPS array alist(100),blist(100) 3 2 09-APR-2009 23:38:48 AIPS inext'SU';invers 0;keyword'NUM ROW';keyvalue 0;keystrng'';getthead 3 2 09-APR-2009 23:38:48 AIPS n=keyvalue(1);idx=1;aparm 0;bparm 0;alist 0;blist 0 3 2 09-APR-2009 23:38:48 AIPS if (n < 2) then; type'ONE SOURCE ONLY, SKIPPING FASTSWITCH TEST';else 3 2 09-APR-2009 23:38:48 AIPS for m=1:(n-1);clrtemp 3 2 09-APR-2009 23:38:48 AIPS pixxy m,11;inext'SU';tabget;ra1a keyvalue(1);ra1b keyvalue(2) 3 2 09-APR-2009 23:38:48 AIPS for l=(m+1):n;clrtemp 3 2 09-APR-2009 23:38:48 AIPS pixxy l,11;tabget;ra2a keyvalue(1);ra2b keyvalue(2) 3 2 09-APR-2009 23:38:48 AIPS if (abs(ra1a-ra2a)=0) then 3 2 09-APR-2009 23:38:48 AIPS if ( abs((ra1b-ra2b)*3600*1000) < 3 ) then $ RA within 3 mas! 3 2 09-APR-2009 23:38:48 AIPS pixxy m,12;tabget;dc1a keyvalue(1);dc1b keyvalue(2) 3 2 09-APR-2009 23:38:48 AIPS pixxy l,12;tabget;dc2a keyvalue(1);dc2b keyvalue(2) 3 2 09-APR-2009 23:38:48 AIPS if (abs(dc1a-dc2a)=0) then 3 2 09-APR-2009 23:38:48 AIPS if ( abs((dc1b-dc2b)*3600*1000) < 3 ) then $ DC within 3 mas! 3 2 09-APR-2009 23:38:48 AIPS pixxy m,3;tabget;q1 keyvalue(1);pixxy l,3;tabget;q2 keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS $if one has zero vis then next checks not needed and declare/fix same source 3 2 09-APR-2009 23:38:48 AIPS inext'NX';keyword'NUM ROW';getthead;k=keyvalue(1);y1=0;y2=0 3 2 09-APR-2009 23:38:48 AIPS for x=1:k;pixxy x,3;tabget 3 2 09-APR-2009 23:38:48 AIPS if(keyval(1)=m)then;y1=y1+1;else; 3 2 09-APR-2009 23:38:48 AIPS if(keyval(1)=l)then;y2=y2+1;end;end 3 2 09-APR-2009 23:38:48 AIPS end $ if ((y1=0)!(y2=0)) then one has 0 visibilities: do dsorc 3 2 09-APR-2009 23:38:48 AIPS if (q1=q2)!((y1=0)!(y2=0)) then ;inext'SU' $ same calcode? 3 2 09-APR-2009 23:38:48 AIPS pixxy m,4;tabget;co1 keystrng;pixxy l,4;tabget;co2 keystrng 3 2 09-APR-2009 23:38:48 AIPS if (co1=co2)!((y1=0)!(y2=0)) then 3 2 09-APR-2009 23:38:48 AIPS pixxy m,1;tabget;q1 keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS pixxy l,1;tabget;q2 keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS pixxy m,2;tabget;n1 keystrng;pixxy l,2;tabget;n2 keystrng 3 2 09-APR-2009 23:38:48 AIPS if (idx>100) then 3 2 09-APR-2009 23:38:48 AIPS type 'TOO MANY SOURCES TO DO DSORC - DO BY HAND!' 3 2 09-APR-2009 23:38:48 AIPS type 'NEXT =.'!!char(idx)!!' DO:'!!char(l)!!'.&.'!!char(m) 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS if (length(n1)1) then;task'DSORC';n=0 3 2 09-APR-2009 23:38:48 AIPS outname inname;outclass inclass;outseq inseq;outdisk indisk 3 2 09-APR-2009 23:38:48 AIPS while (n100)then;type'TOO MANY SOURCES FOR DSORC';error 1;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure chkobjct 3 2 09-APR-2009 23:38:48 AIPS if (((lsobj='3C286')!(lsobj='3C48'))!((lsobj='3C138')!(lsobj='3C147'))) 3 2 09-APR-2009 23:38:48 AIPS then; object=lsobj;end 3 2 09-APR-2009 23:38:48 AIPS if (( (lsobj='1331+305') ! (lsobj='1328+307') ) ! (lsobj='J1331+3030') ) 3 2 09-APR-2009 23:38:48 AIPS then; object='3C286';end 3 2 09-APR-2009 23:38:48 AIPS if (( (lsobj='0137+331') ! (lsobj='0134+329') ) ! (lsobj='J0137+3309') ) 3 2 09-APR-2009 23:38:48 AIPS then; object='3C48';end 3 2 09-APR-2009 23:38:48 AIPS if (( (lsobj='0521+166') ! (lsobj='0518+165') ) ! (lsobj='J0521+1638') ) 3 2 09-APR-2009 23:38:48 AIPS then; object='3C138';end 3 2 09-APR-2009 23:38:48 AIPS if (( (lsobj='0542+498') ! (lsobj='0538+498') ) ! (lsobj='J0542+4951') ) 3 2 09-APR-2009 23:38:48 AIPS then; object='3C147';end 3 2 09-APR-2009 23:38:48 AIPS if (( (lsobj='1411+522') ! (lsobj='1409+524') ) ! (lsobj='J1411+5212') ) 3 2 09-APR-2009 23:38:48 AIPS then; object='3C295';end;clrtemp;return 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure checkbnd 3 2 09-APR-2009 23:38:48 AIPS band='';j=1 3 2 09-APR-2009 23:38:48 AIPS while (j<9) 3 2 09-APR-2009 23:38:48 AIPS keyword='CTYPE'!!char(j);gethead;keyword='CRVAL'!!char(j);clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end 3 2 09-APR-2009 23:38:48 AIPS keyvalue(1)=keyvalue(1)/1e9 3 2 09-APR-2009 23:38:48 AIPS if ( (keyvalue(1)>38) & (keyvalue(1)<51) ) then; band='Q';end 3 2 09-APR-2009 23:38:48 AIPS if ( (keyvalue(1)>20.4) & (keyvalue(1)<25.5) ) then; band='K';end 3 2 09-APR-2009 23:38:48 AIPS if ( (keyvalue(1)>13.5) & (keyvalue(1)<16.3) ) then; band='U';end 3 2 09-APR-2009 23:38:48 AIPS if ( (keyvalue(1)> 6.8) & (keyvalue(1)< 9.6) ) then; band='X';end 3 2 09-APR-2009 23:38:48 AIPS if ( (keyvalue(1)> 4.2) & (keyvalue(1)< 5.1) ) then; band='C';end 3 2 09-APR-2009 23:38:48 AIPS if ( (keyvalue(1)> 1.15) & (keyvalue(1)< 1.75) ) then; band='L';end 3 2 09-APR-2009 23:38:48 AIPS if ( (keyvalue(1)>0.298) & (keyvalue(1)<0.345) ) then; band='P';end 3 2 09-APR-2009 23:38:48 AIPS if ( (keyvalue(1)>0.072) & (keyvalue(1)<0.076) ) then; band='4';end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS return 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure chkmodel 3 2 09-APR-2009 23:38:48 AIPS error=0;sysout='';sys2com'' 3 2 09-APR-2009 23:38:48 AIPS syscom'ls -1 $AIPSTARS/ 3 2 09-APR-2009 23:38:48 AIPS sys2com(1) inname!!'.MODEL' 3 2 09-APR-2009 23:38:48 AIPS sys2com(2) ' >& /dev/null 3 2 09-APR-2009 23:38:48 AIPS system 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure loadmodl 3 2 09-APR-2009 23:38:48 AIPS scalar lsidx,l 3 2 09-APR-2009 23:38:48 AIPS array lsload(5) 3 2 09-APR-2009 23:38:48 AIPS task'TABGET';getset;inext'SU';invers 0;keyvalue=0;keystrng'' 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';getthead;lsidx=keyvalue(1);l=1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS for i=1:lsidx 3 2 09-APR-2009 23:38:48 AIPS pixxy=i,2,0;tabget;k=length(keystrng);j=1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while (j<21) 3 2 09-APR-2009 23:38:48 AIPS if (substr(lsampcal(j),1,k)=substr(keystrng,1,k)) then 3 2 09-APR-2009 23:38:48 AIPS lsload(l)=i;j=30;l=l+1;else;j=j+1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end;end;end;lsidx=0;checkbnd;keyword'EPOCH';keyvalue=0;keystrng='';gethead 3 2 09-APR-2009 23:38:48 AIPS if (keyvalue(1)<1999) then;lsidx=1;end 3 2 09-APR-2009 23:38:48 AIPS for j=1:(l-1) 3 2 09-APR-2009 23:38:48 AIPS lsobj=lsampcal(j);chkobjct;clrtemp;intype'MA';outdisk=lsdisk 3 2 09-APR-2009 23:38:48 AIPS inname=object!!'_'!!band;inclass'MODEL';inseq=1;indisk=lsdisk;chkname 3 2 09-APR-2009 23:38:48 AIPS $$ if (error>0) then;type lsampcal(lsload(j))!!' MODEL ='inname;chkmodel 3 2 09-APR-2009 23:38:48 AIPS if (error>0) then;type lsampcal(j)!!' MODEL ='inname;chkmodel 3 2 09-APR-2009 23:38:48 AIPS if(error<1)then;go calrd;if (lsidx>0) then;eposwtch;end;end;end $ J2000 3 2 09-APR-2009 23:38:48 AIPS end;return 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure vlanew 3 2 09-APR-2009 23:38:48 AIPS clrstat;j=numtab('BP');if (j>0) then;inext'BP';invers=-1;extdest;end 3 2 09-APR-2009 23:38:48 AIPS j=numtab('CL');if (j>1) then;inext'CL';for k=2:j;invers=k;extdest;end;end 3 2 09-APR-2009 23:38:48 AIPS j=numtab('SN');if (j>0) then;inext'SN';invers=-1;extdest;end 3 2 09-APR-2009 23:38:48 AIPS j=numtab('XX');if (j>0) then;inext'XX';invers=-1;extdest;end 3 2 09-APR-2009 23:38:48 AIPS if (inclass='LINE') then 3 2 09-APR-2009 23:38:48 AIPS j=numtab('FG');if (j>1) then;inext'FG';for k=2:j;invers=k;extdest;end;end 3 2 09-APR-2009 23:38:48 AIPS j=numtab('CL');if (j>1) then;inext'CL';for k=2:j;invers=k;extdest;end;end 3 2 09-APR-2009 23:38:48 AIPS j=numtab('BP');if (j>0) then;inext'BP';invers=-1;extdest;end 3 2 09-APR-2009 23:38:48 AIPS j=numtab('PL');if (j>0) then;inext'PL';invers=-1;extdest;end 3 2 09-APR-2009 23:38:48 AIPS end;j=numtab('PL');if (j>0) then;inext'PL';invers=-1;extdest;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS type'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure allzap 3 2 09-APR-2009 23:38:48 AIPS chkname;if(error<1)then;for j=1:(1-error);zap;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure allplot 3 2 09-APR-2009 23:38:48 AIPS tvinit;j=numtab('PL');type 'NUMBER OF PLOT FILES TO SHOW ON TV:'!!char(j) 3 2 09-APR-2009 23:38:48 AIPS if (j>0) then 3 2 09-APR-2009 23:38:48 AIPS for k=1:j;plver=k;type 'PLOT'char(k)!!'/'!!char(j);go tvpl;read;end 3 2 09-APR-2009 23:38:48 AIPS else;type 'NOTHING TO PLOT - DONE';end 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure goplt 3 2 09-APR-2009 23:38:48 AIPS if (lsplot>=0) then;go;end 3 2 09-APR-2009 23:38:48 AIPS finish $UV and vis only 3 2 09-APR-2009 23:38:48 AIPS procedure goplt0 3 2 09-APR-2009 23:38:48 AIPS if (lsplot>0) then;go;end 3 2 09-APR-2009 23:38:48 AIPS finish $SN only 3 2 09-APR-2009 23:38:48 AIPS procedure goplt1 3 2 09-APR-2009 23:38:48 AIPS if (lsplot>1) then;go;end 3 2 09-APR-2009 23:38:48 AIPS finish $SN+CL 3 2 09-APR-2009 23:38:48 AIPS procedure goplt2 3 2 09-APR-2009 23:38:48 AIPS if (lsplot>2) then;go;end 3 2 09-APR-2009 23:38:48 AIPS finish $SN+CL+BP 3 2 09-APR-2009 23:38:48 AIPS procedure goplt3 3 2 09-APR-2009 23:38:48 AIPS if (lsplot>3) then;go;end 3 2 09-APR-2009 23:38:48 AIPS finish $CL,BP applied 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure calpipe(lsdisk,lsname,lsrant) 3 2 09-APR-2009 23:38:48 AIPS vnum=33;dowait=true;getidn;vlanew;j=0;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (inclass='CH 0') then;inclass'LINE';vlanew;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(fsw>0)then;checkids;if(inclass='CH 0')then;inclass'LINE';checkids;end;end 3 2 09-APR-2009 23:38:48 AIPS if ((numtab('FG')<1)&(lsflag>=0)) then 3 2 09-APR-2009 23:38:48 AIPS if (lsflag>=1) then 3 2 09-APR-2009 23:38:48 AIPS task'QUACK';getset;flagver=1;opcode'BEG';i=min(3*tint,20) 3 2 09-APR-2009 23:38:48 AIPS reason char(i)!!' SEC AUTO-QUACK';aparm=0,i/60,(tint/60)*1.1;j=1 3 2 09-APR-2009 23:38:48 AIPS while (j<9);keyword='CTYPE'!!char(j);gethead;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(keystrng='FREQ')then 3 2 09-APR-2009 23:38:48 AIPS keyword='CRVAL'!!char(j);gethead;keyval(1)=keyval(1)/1e10;j=9 3 2 09-APR-2009 23:38:48 AIPS if (keyval(1) < 1.8) then;clrtemp;go;else;tput quack 3 2 09-APR-2009 23:38:48 AIPS type 'QUACK SKIPPED FOR THIS HIGH FREQUENCY OBSERVATION' 3 2 09-APR-2009 23:38:48 AIPS type 'MAY BE A FAST-SWITHCING OBS - IE LOSS OF ALL DATA' 3 2 09-APR-2009 23:38:48 AIPS type 'RUN BY HAND IF YOU REALLY WANT THIS QUACK';tget quack 3 2 09-APR-2009 23:38:48 AIPS end;else;j=j+1;end;end 3 2 09-APR-2009 23:38:48 AIPS end;task'FLAGR';getset 3 2 09-APR-2009 23:38:48 AIPS docal 2;solint=max(3*tint-2,2.7*tint);vector=-1;docrt 0;go 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS task'SNPLT';getset;inext'CL';nplots 8;optype'AMP';vput;pixrange=0.7,1.8 3 2 09-APR-2009 23:38:48 AIPS goplt1;task'SETJY';getset;optype'REJY';aparm=0;freqid=1;go;optype'CALC' 3 2 09-APR-2009 23:38:48 AIPS if (length(lscal)<>0) then 3 2 09-APR-2009 23:38:48 AIPS optype'';zerosp=lsflux,0;lsallcal=lscal,lspntcal 3 2 09-APR-2009 23:38:48 AIPS end;sources=lsampcal;go;clrtemp 3 2 09-APR-2009 23:38:48 AIPS task'CALIB';getset;docalib=2;refant=lsrant;aparm=3,0,0,0,0,0,4,0,0;calcode'' 3 2 09-APR-2009 23:38:48 AIPS solint=lsparm(2);calsour=lspntcal;snver=numtab('SN')+1;solmode'P' 3 2 09-APR-2009 23:38:48 AIPS soltype'L1R';baddisk=lsbadd;vput;kj=0;userid=0;clrtemp 3 2 09-APR-2009 23:38:48 AIPS while (kj<9) 3 2 09-APR-2009 23:38:48 AIPS kj=kj+1;keyvalue=0;keystrng'';keyword='CTYPE'!!char(kj);gethead;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(substr(keystrng,1,4)='FREQ')then;keyword='CRVAL'!!char(kj);gethead 3 2 09-APR-2009 23:38:48 AIPS kj=10;end;end;vget;if((keyvalue(1))>17e9&(solint>0.5))then;solint=1/3 3 2 09-APR-2009 23:38:48 AIPS aparm(7)=3.5;vput;type' AUTOMATIC RESET: SOLINT=20SEC (HIGH FREQ)';end 3 2 09-APR-2009 23:38:48 AIPS if(star>0)then;calsour'';calcode'*';end;go 3 2 09-APR-2009 23:38:48 AIPS if (lsmodl>0) then $ use models for ones that exist 3 2 09-APR-2009 23:38:48 AIPS loadmodl;vget calib;calsour='';in2seq=0;in2disk=lsdisk;in2class'MODEL' 3 2 09-APR-2009 23:38:48 AIPS for j=1:(l-1) 3 2 09-APR-2009 23:38:48 AIPS inext'SU';pixxy=lsload(j),2,0;tabget;calsour(1)=keystrng;clrtemp 3 2 09-APR-2009 23:38:48 AIPS pixxy=lsload(j),4,0;tabget;calcode=substr(keystrng,1,4);clrtemp 3 2 09-APR-2009 23:38:48 AIPS lsobj=lsampcal(j);chkobjct;in2name=object!!'_'!!band 3 2 09-APR-2009 23:38:48 AIPS vput calib;inname=in2name;inclass=in2class;inseq=in2seq;indisk=in2disk 3 2 09-APR-2009 23:38:48 AIPS $ if no model, use point with full uvrange 3 2 09-APR-2009 23:38:48 AIPS chkname;vget calib;if (error>0)then;clr2name;end;go 3 2 09-APR-2009 23:38:48 AIPS end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS else;uvrange=lsparm(3),lsparm(4);calsour=lsampcal;go;end 3 2 09-APR-2009 23:38:48 AIPS vget snplt;inext'SN';optype'PHAS';goplt0;clrtemp 3 2 09-APR-2009 23:38:48 AIPS task'CLCAL';getset;freqid=1;refant=lsrant;gainuse=numtab('CL')+1 3 2 09-APR-2009 23:38:48 AIPS snver=numtab('SN');gainver=numtab('CL');sources'';soucode'' 3 2 09-APR-2009 23:38:48 AIPS calsour=lsphacal;calcode'';vput;if(star>0)then;calsour'';calcode'*';end;go 3 2 09-APR-2009 23:38:48 AIPS calsour=lsallcal;sources=calsour;interpol'SELF' 3 2 09-APR-2009 23:38:48 AIPS if(star>0)then;calsour'';calcode'*';soucode'*';end;go 3 2 09-APR-2009 23:38:48 AIPS vget snplt;inext'CL';optype'PHAS';goplt1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS vget calib;solmode'A&P';calsour=lspntcal;calcode'';snver=numtab('SN')+1 3 2 09-APR-2009 23:38:48 AIPS solint=lsparm(13)*lsparm(2);clr2name;vput 3 2 09-APR-2009 23:38:48 AIPS if(star>0)then;calsour'';calcode'*';end;go 3 2 09-APR-2009 23:38:48 AIPS if (lsmodl>0) then 3 2 09-APR-2009 23:38:48 AIPS loadmodl;vget calib;calsour='';in2seq=0;in2disk=lsdisk;in2class'MODEL' 3 2 09-APR-2009 23:38:48 AIPS for j=1:(l-1) 3 2 09-APR-2009 23:38:48 AIPS inext'SU';pixxy=lsload(j),2,0;tabget;calsour(1)=keystrng;clrtemp 3 2 09-APR-2009 23:38:48 AIPS pixxy=lsload(j),4,0;tabget;calcode=substr(keystrng,1,4);clrtemp 3 2 09-APR-2009 23:38:48 AIPS lsobj=lsampcal(j);chkobjct;in2name=object!!'_'!!band;calcode'' 3 2 09-APR-2009 23:38:48 AIPS vput calib;inname=in2name;inclass=in2class;inseq=in2seq;indisk=in2disk 3 2 09-APR-2009 23:38:48 AIPS $ if no model, use point with full uvrange 3 2 09-APR-2009 23:38:48 AIPS chkname;vget calib;if (error>0)then;clr2name;end;go 3 2 09-APR-2009 23:38:48 AIPS end;inseq=0;indisk=lsdisk;inclass'MODEL';intype'MA' 3 2 09-APR-2009 23:38:48 AIPS for j=1:(l-1) 3 2 09-APR-2009 23:38:48 AIPS lsobj=lsampcal(j);chkobjct;inname=object!!'_'!!band;chkname 3 2 09-APR-2009 23:38:48 AIPS if (error<1) then;zap;end;end 3 2 09-APR-2009 23:38:48 AIPS else;uvrange=lsparm(3),lsparm(4);calsour=lsampcal;go;end 3 2 09-APR-2009 23:38:48 AIPS vget snplt;inext'SN';optype'AMP';goplt0;optype'PHAS';pixrange=-20,20;goplt0 3 2 09-APR-2009 23:38:48 AIPS task'GETJY';getset;calsour=lsampcal;snver=numtab('SN') 3 2 09-APR-2009 23:38:48 AIPS if (star>0) then 3 2 09-APR-2009 23:38:48 AIPS $ for j=1:lsparm(14);sources(j)='-'!!lsampcal(j);end;k=lsparm(14)+1 3 2 09-APR-2009 23:38:48 AIPS $ if (length(lscal)>0) then;sources(k)='-'!!lscal;k=k+1;end 3 2 09-APR-2009 23:38:48 AIPS $ for j=k:(25-k+2);sources(j)=lspntcal(j-k+2);end 3 2 09-APR-2009 23:38:48 AIPS soucode='*' 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS sources=lspntcal;if (length(lscal)>0) then;sources(11)='-'!!lscal;end 3 2 09-APR-2009 23:38:48 AIPS end;go 3 2 09-APR-2009 23:38:48 AIPS if (lscont<1) then 3 2 09-APR-2009 23:38:48 AIPS type '********************************************************' 3 2 09-APR-2009 23:38:48 AIPS type '** WRITE DOWN THE FLUX DENSITIES FOR YOUR CALIBRATORS **' 3 2 09-APR-2009 23:38:48 AIPS type '** (AND DO NOT FORGET THE ERRORS EITHER!) **' 3 2 09-APR-2009 23:38:48 AIPS type '********************************************************';read 3 2 09-APR-2009 23:38:48 AIPS end 3 2 09-APR-2009 23:38:48 AIPS vget clcal;gainver=numtab('CL');gainuse=numtab('CL')+1;snver=numtab('SN') 3 2 09-APR-2009 23:38:48 AIPS if(star>0)then;calsour'';calcode'*';end;go;calsour=lsallcal;sources=calsour 3 2 09-APR-2009 23:38:48 AIPS interpol'SELF';if(star>0)then;calsour'';calcode'*';soucode'*';end;go 3 2 09-APR-2009 23:38:48 AIPS vget snplt;inext'CL';optype'AMP';goplt1;optype'PHAS';goplt1;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (inclass='CH 0') then 3 2 09-APR-2009 23:38:48 AIPS task'TACOP';getset 3 2 09-APR-2009 23:38:48 AIPS outdisk=indisk;outname=inname;outclass'LINE';outseq=inseq;ncount=1 3 2 09-APR-2009 23:38:48 AIPS keystrng'';inext'FG';invers=numtab('FG');if (invers>0) then;go;end 3 2 09-APR-2009 23:38:48 AIPS inext'CL';invers=numtab('CL');keyvalue 0;outseq=inseq;vput;go;clrtemp 3 2 09-APR-2009 23:38:48 AIPS task'BPASS';getset;inclass'LINE';calsour=lsbndcal,lsampcal;docal=2 3 2 09-APR-2009 23:38:48 AIPS solint=-1;bpassprm(5)=-1;bpassprm(9)=1;baddisk=lsbadd;go;clrtemp 3 2 09-APR-2009 23:38:48 AIPS task'POSSM';getset;inclass'LINE';bpver 0;aparm=0,1,.4,1.2,-30,30,0,2,3,0 3 2 09-APR-2009 23:38:48 AIPS nplots=6;goplt2;sources=lsbndcal;docalib 2;doband 1;aparm=1 0;aparm(9)=3 3 2 09-APR-2009 23:38:48 AIPS antennas=lsrant,0;goplt2;nplots=0;vput;goplt2;stokes'I';antennas=0;goplt2 3 2 09-APR-2009 23:38:48 AIPS sources=lsampcal;goplt3 3 2 09-APR-2009 23:38:48 AIPS vget tacop;inclass'LINE';outclass'CH 0';invers=numtab('BP');inext'BP';go 3 2 09-APR-2009 23:38:48 AIPS end;task'TASAV';getset;outdisk=indisk;go;dowait=false;vnum=0;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure calcrms 3 2 09-APR-2009 23:38:48 AIPS scalar nbas,nvis,tbw,rms,minhrs 3 2 09-APR-2009 23:38:48 AIPS keyword'GCOUNT';gethead;nvis=keyvalue(1);nbas=numbasel;j=1 3 2 09-APR-2009 23:38:48 AIPS minhrs=nvis*tint/(nbas*3600) $ underesimate of obs hours (overestimate rms) 3 2 09-APR-2009 23:38:48 AIPS while (j<9) $ bandwidth in a channel, continuum or spectral line 3 2 09-APR-2009 23:38:48 AIPS keyword='CTYPE'!!char(j);gethead;keyword='CDELT'!!char(j);clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end;tbw=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS if (lsidc <> 'CH 0') then;j=1 $ continuum, multiple IFs averaged 3 2 09-APR-2009 23:38:48 AIPS while (j<9) 3 2 09-APR-2009 23:38:48 AIPS keyword='CTYPE'!!char(j);gethead;keyword='NAXIS'!!char(j);clrtemp 3 2 09-APR-2009 23:38:48 AIPS if(keystrng='IF')then;gethead;j=9;else;j=j+1;end;end;tbw=tbw*keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS end;checkbnd;if((band='P')!(band='4'))then;tbw=tbw/3.2;else;tbw=tbw/50;end 3 2 09-APR-2009 23:38:48 AIPS tbw=sqrt(tbw*minhrs/24e6);rms=-1 3 2 09-APR-2009 23:38:48 AIPS if (band='Q')then;rms=3.0e-5/tbw;end;if (band='K')then;rms=2.5e-5/tbw;end 3 2 09-APR-2009 23:38:48 AIPS if (band='U')then;rms=2.0e-5/tbw;end;if (band='X')then;rms=5.3e-6/tbw;end 3 2 09-APR-2009 23:38:48 AIPS if (band='C')then;rms=6.4e-6/tbw;end;if (band='L')then;rms=6.6e-6/tbw;end 3 2 09-APR-2009 23:38:48 AIPS if (band='P')then;rms=1.7e-4/tbw;end;if (band='4')then;rms=1.5e-2/tbw;end 3 2 09-APR-2009 23:38:48 AIPS if (rms<0) then;type 'CANNOT CALCULATE RMS FROM OBSERVING BAND ..';end 3 2 09-APR-2009 23:38:48 AIPS typ 'ESTIMATED RMS:' char(rms*1000)!!' MILLI JANSKY' 3 2 09-APR-2009 23:38:48 AIPS return rms 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure setboxfle 3 2 09-APR-2009 23:38:48 AIPS scalar ci,bi 3 2 09-APR-2009 23:38:48 AIPS string*12 srcnme 3 2 09-APR-2009 23:38:48 AIPS string*48 fbox 3 2 09-APR-2009 23:38:48 AIPS srcnme=inname;ci=0;bi=length(srcnme) 3 2 09-APR-2009 23:38:48 AIPS while(ci& /dev/null 3 2 09-APR-2009 23:38:48 AIPS if(substr(boxfile,1,1)<>' ')then;system;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure catboxfile 3 2 09-APR-2009 23:38:48 AIPS string*20 expnm 3 2 09-APR-2009 23:38:48 AIPS string*75 expmsg 3 2 09-APR-2009 23:38:48 AIPS if (substr(expmsg,1,5)='ARUN:')then 3 2 09-APR-2009 23:38:48 AIPS expmsg = substr(expmsg,6,71);sysout='$ARUN/'!!expmsg 3 2 09-APR-2009 23:38:48 AIPS else;if (substr(expmsg,1,6)<>'$ARUN/')then;sysout = '$ARUN/'!!expmsg 3 2 09-APR-2009 23:38:48 AIPS else;sysout = expmsg;end;end;sys2com'';syscom 'echo 3 2 09-APR-2009 23:38:48 AIPS sys2com(1) ' "SETFC FILE FOR SOURCEX'!!inname!!' BELOW IS:"' 3 2 09-APR-2009 23:38:48 AIPS substr(sys2com(1),24,24)='';clrtemp;system;syscom 'cat 3 2 09-APR-2009 23:38:48 AIPS sys2com(1) 'X'!!boxfile;substr(sys2com(1),1,1)='';clrtemp 3 2 09-APR-2009 23:38:48 AIPS system 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure setimsize 3 2 09-APR-2009 23:38:48 AIPS scalar szf, kk, prbm 3 2 09-APR-2009 23:38:48 AIPS string*48 bxf 3 2 09-APR-2009 23:38:48 AIPS array szc(2), szi(2), orgc(2), orgi(2) 3 2 09-APR-2009 23:38:48 AIPS vput imagr;task'SETFC';sources'';bcount=1;bxf=setboxfle;boxfile=bxf 3 2 09-APR-2009 23:38:48 AIPS bparm=0;infile='';shift=0;flux=0;pbparm=0.25,0;delboxfle 3 2 09-APR-2009 23:38:48 AIPS orgc=cellsize;cellsize=0;orgi=lsparm(6);imsize=0;kk=1 3 2 09-APR-2009 23:38:48 AIPS while (kk<9) 3 2 09-APR-2009 23:38:48 AIPS keyword='CTYPE'!!char(kk);gethead;keyword='CRVAL'!!char(kk);clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (keystrng='FREQ') then;gethead;kk=9;else;kk=kk+1;end;end 3 2 09-APR-2009 23:38:48 AIPS keyvalue(1)=keyvalue(1)/1e9;prbm=0.375/keyvalue(1);bparm(1)=prbm;bparm(2)=30 3 2 09-APR-2009 23:38:48 AIPS bparm(3)=1;bparm(4)=0;bparm(5)=0.031;bparm(6)=256;bparm(7)=256;bparm(8)=100 3 2 09-APR-2009 23:38:48 AIPS gx;bparm(4)=3*prbm;bparm(1)=-0.7*bparm(1);bcount=nfield+1 3 2 09-APR-2009 23:38:48 AIPS type'SEARCHING FOR NVSS SOURCES';gx;szf=nfield;szc=cellsize;szi=imsize 3 2 09-APR-2009 23:38:48 AIPS vget imagr;if(lsparm(5)<0)then;cellsize=szc;else;cellsize=orgc;end 3 2 09-APR-2009 23:38:48 AIPS if(lsparm(6)<0)then;imsize=256;nfield=szf;boxfile=bxf;else;imsize=orgi;end 3 2 09-APR-2009 23:38:48 AIPS vput imagr 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure imapipe(k,lsdisk,lsname) 3 2 09-APR-2009 23:38:48 AIPS vnum=33;dowait=true 3 2 09-APR-2009 23:38:48 AIPS if (k=1) then 3 2 09-APR-2009 23:38:48 AIPS task'SPLIT';getset;outdisk=indisk;outclass=inclass;docalib=2 3 2 09-APR-2009 23:38:48 AIPS baddisk=lsbadd;douvcomp=-1;go 3 2 09-APR-2009 23:38:48 AIPS if (inclass='CH 0') then;inclass'LINE';outclass=inclass;doband=1;bpver=0 3 2 09-APR-2009 23:38:48 AIPS go;end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS task'TABGET';getset;inext'SU';invers=0;keyvalue=0;keystrng'';vput;clrtemp 3 2 09-APR-2009 23:38:48 AIPS task'IMAGR';getset;outdisk=indisk;flux=lsparm(8);baddisk=lsbadd;j=1 3 2 09-APR-2009 23:38:48 AIPS while (j<9) 3 2 09-APR-2009 23:38:48 AIPS keyword='CTYPE'!!char(j);gethead;keyword='CRVAL'!!char(j);clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (keystrng='FREQ') then;gethead;j=9;else;j=j+1;end;end 3 2 09-APR-2009 23:38:48 AIPS cellsize=1.75e10/(keyvalue(1)*abs(lsparm(5)));do3dimag=1;overlap=2;vput 3 2 09-APR-2009 23:38:48 AIPS keyword'NUM ROW';inext'SU';invers=0;keystrng'';getthead;clrtemp 3 2 09-APR-2009 23:38:48 AIPS for i=1:keyvalue(1) $ check if source is in index and uvfile exists 3 2 09-APR-2009 23:38:48 AIPS vget tabget;pixxy=i,2,0;tabget;vget imagr;inname=keystrng;j=1;intype'UV' 3 2 09-APR-2009 23:38:48 AIPS inseq=0;chkname;type ' ';niter=lsparm(7);lstarg=1;clrtemp;vput 3 2 09-APR-2009 23:38:48 AIPS if (error < 1) then $ source file exists, but same source number ? 3 2 09-APR-2009 23:38:48 AIPS vget tabget;pixxy=i,1,0;tabget;error=1;k=1 3 2 09-APR-2009 23:38:48 AIPS while ((lssid(k)>0) & (k<1001)) 3 2 09-APR-2009 23:38:48 AIPS if (lssid(k)=keyvalue(1))then error=0;end 3 2 09-APR-2009 23:38:48 AIPS k=k+1;end;keyword'GCOUNT';gethead 3 2 09-APR-2009 23:38:48 AIPS if(keyvalue(1)<10)then;type'NO DATA';error=1;end;end;vget imagr 3 2 09-APR-2009 23:38:48 AIPS if (error < 1) then 3 2 09-APR-2009 23:38:48 AIPS if ((lsparm(7)=7e4)&(lsparm(8)<0))then;flux=6*calcrms;end 3 2 09-APR-2009 23:38:48 AIPS if ((lsparm(6)<0)!(lsparm(5)<0))then;setimsize;else;imsize=lsparm(6);end 3 2 09-APR-2009 23:38:48 AIPS while (j<30) 3 2 09-APR-2009 23:38:48 AIPS k=length(inname) 3 2 09-APR-2009 23:38:48 AIPS if (substr(lsallcal(j),1,k)=substr(inname,1,k)) then $ calibrator 3 2 09-APR-2009 23:38:48 AIPS lstarg=0;j=30 3 2 09-APR-2009 23:38:48 AIPS if(lsparm(6)>=-0.99)then;niter=min(500,lsparm(7)) 3 2 09-APR-2009 23:38:48 AIPS nfield=1;boxfile'';imsize=min(256,lsparm(6)) 3 2 09-APR-2009 23:38:48 AIPS if(imsize(1)<0)then;imsize=256;end;end 3 2 09-APR-2009 23:38:48 AIPS else;j=j+1;end $ check next source, if not found -> target 3 2 09-APR-2009 23:38:48 AIPS end;if(substr(boxfile,1,1)<>' ')then;catboxfile;end 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS j=1 3 2 09-APR-2009 23:38:48 AIPS $calibrator lstarg=0 3 2 09-APR-2009 23:38:48 AIPS $target if lstarg=1 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS while (j<9) 3 2 09-APR-2009 23:38:48 AIPS keyword='CTYPE'!!char(j);gethead;keyword='NAXIS'!!char(j);clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (keystrng='IF') then;gethead;j=9;else;j=j+1;end;end 3 2 09-APR-2009 23:38:48 AIPS type ' NOW STARTING WITH SOURCE :'!!char(i)!!' ='!!inname;type ' ' 3 2 09-APR-2009 23:38:48 AIPS if (inclass='CH 0') then 3 2 09-APR-2009 23:38:48 AIPS for k=1:keyvalue(1);bif=k;eif=k 3 2 09-APR-2009 23:38:48 AIPS if ((lstarg>0)!(lsparm(9)>0)) then;go;end 3 2 09-APR-2009 23:38:48 AIPS end;clrtemp;k=keyvalue(1) 3 2 09-APR-2009 23:38:48 AIPS inclass'LINE';keyvalue=0;keystrng'';j=1;chkname 3 2 09-APR-2009 23:38:48 AIPS if (error < 1) then 3 2 09-APR-2009 23:38:48 AIPS while (j<9) 3 2 09-APR-2009 23:38:48 AIPS keyword='CTYPE'!!char(j);gethead;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (keystrng='FREQ') then 3 2 09-APR-2009 23:38:48 AIPS keyword='NAXIS'!!char(j);gethead;echan=keyvalue(1);j=9 3 2 09-APR-2009 23:38:48 AIPS else;j=j+1;end 3 2 09-APR-2009 23:38:48 AIPS end;bchan=floor(echan/10);echan=ceil(echan*9/10) 3 2 09-APR-2009 23:38:48 AIPS if (bchan=1) then;bchan=2;end;j=k 3 2 09-APR-2009 23:38:48 AIPS for k=1:j;bif=k;eif=k;if ((lstarg>0)!(lsparm(9)>1)) then;go;end 3 2 09-APR-2009 23:38:48 AIPS end;end;clrtemp 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS bif=1;eif=keyvalue(1);vput;out2disk=indisk 3 2 09-APR-2009 23:38:48 AIPS if ( (lsparm(10)=0) ! ((lsparm(9)<1)&(lstarg<1)) )then;go;clrtemp 3 2 09-APR-2009 23:38:48 AIPS else 3 2 09-APR-2009 23:38:48 AIPS solint=lsparm(2);dotv=1;nmaps=lsparm(10);refant=lsrant;aparm=4,0 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(10)<0) then;dotv=-1;nmaps=-1*nmaps;end;go scimg;clrtemp 3 2 09-APR-2009 23:38:48 AIPS end;end;boxfile=setboxfle;delboxfle;vput imagr 3 2 09-APR-2009 23:38:48 AIPS $ make uv and visibility plot 3 2 09-APR-2009 23:38:48 AIPS task'UVPLT';ltype=-3;bparm 6,7;dotv -1;goplt;bparm 9,10;goplt;bparm 0 3 2 09-APR-2009 23:38:48 AIPS goplt;vget imagr;inclass'IMAGR';inseq=0;intype'UV';indisk=lsdisk;allzap 3 2 09-APR-2009 23:38:48 AIPS $ inclass'SCIMG';allzap 3 2 09-APR-2009 23:38:48 AIPS inclass'IBM*';intype'MA';allzap 3 2 09-APR-2009 23:38:48 AIPS inclass'RBM*';allzap;inclass'LBM*';allzap;recat;clrtemp 3 2 09-APR-2009 23:38:48 AIPS else;type ' NO UV-FILE, SKIPPING SOURCE :'!!inname!!' =#'!!char(i) 3 2 09-APR-2009 23:38:48 AIPS end;end;dowait=false;vnum=0 3 2 09-APR-2009 23:38:48 AIPS finish 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS procedure avlapipe 3 2 09-APR-2009 23:38:48 AIPS tput avlapipe;vnum=33;vput avlapipe;pipeinpt;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (lserr <> 0) then; type '*** ERROR - ARE ALL INPUTS/NAMES SET PROPERLY ?' 3 2 09-APR-2009 23:38:48 AIPS else;lsclrcal;tint=guesintt;clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (tint > 0) then;calpipe(lsdisk,lsname,lsrant);clrtemp 3 2 09-APR-2009 23:38:48 AIPS if (lsparm(1)>0) then;imapipe(1,lsdisk,lsname) 3 2 09-APR-2009 23:38:48 AIPS else;type'CALIBRATION DONE - SKIPPING SPLIT AND IMAGING' 3 2 09-APR-2009 23:38:48 AIPS type'-----------------------------------------------------------' 3 2 09-APR-2009 23:38:48 AIPS end;type ' ' 3 2 09-APR-2009 23:38:48 AIPS if (lsplot>0) then;type 'VIEW CAL-PLOTS WITH GETSET;ALLPLOT';end;type ' ' 3 2 09-APR-2009 23:38:48 AIPS else;type '* * *';type 'SINGLE DISH VLBI EXPERIMENT?';type '* * *';end 3 2 09-APR-2009 23:38:48 AIPS end;tget avlapipe;vnum=0;type'* APPEARS TO HAVE ENDED SUCCESSFULLY *';clrtemp 3 2 09-APR-2009 23:38:48 AIPS finish 3 0 09-APR-2009 23:38:48 AIPS run nvasdefs 3 2 09-APR-2009 23:38:48 AIPS Found in Version=ABIN 3 2 09-APR-2009 23:38:48 AIPS default'AVLAPIPE' 3 2 09-APR-2009 23:38:48 AIPS Found in Version=ABIN 3 2 09-APR-2009 23:38:48 AIPS indisk 1; doalign -1; flagver 2; domodel 1 3 2 09-APR-2009 23:38:48 AIPS docal 1; sources '*''' 3 2 09-APR-2009 23:38:48 AIPS $ to be set by itself later 3 2 09-APR-2009 23:38:48 AIPS solint 1; factor 5; doarray -1; imsize -1 3 2 09-APR-2009 23:38:48 AIPS $imsize 512;$niter -1;cutoff -1;plver 0 3 2 09-APR-2009 23:38:48 AIPS niter -1; cutoff -1 3 2 09-APR-2009 23:38:48 AIPS $ for now debugging 3 2 09-APR-2009 23:38:48 AIPS docont 1; plver 0; doall 1; doresid 0 3 2 09-APR-2009 23:38:48 AIPS 3 2 09-APR-2009 23:38:48 AIPS $ defaults 3 2 09-APR-2009 23:38:48 AIPS $ BADDISK 0$ INDISK 0$ DOCAT 1$ INNAME ' '$ INCLASS ' '$ INSEQ 0 3 2 09-APR-2009 23:38:48 AIPS $ DOALIGN 1$ FLAgver 0$ SOLINT 0$ FACTOR 0$ REFANT 0$ DOMODEL -1 3 2 09-APR-2009 23:38:48 AIPS $ KEYSTRNG ' '$ FLUX 0$ UVRANGE 0, 0$ SOURCES ' '$ CALSOUR ' ' 3 2 09-APR-2009 23:38:48 AIPS $ dopol 0$ bpa 0$ DOCONT 1$ PLVER 0$ DOALL -1$ DOARRAY -1 3 2 09-APR-2009 23:38:48 AIPS $ IMSIZE 0, 0$ NITER 0$ CUTOFF 0$ DOCAL 0$ DORESID -1 3 0 09-APR-2009 23:38:48 AIPS compress 3 0 09-APR-2009 23:38:48 AIPS default prtmsg;outprint'ARUN:'!!'AG0145_1987JUL14_1.3.log 3 0 09-APR-2009 23:38:48 AIPS docrt=-3;prnumber=-1;tput prtmsg;docrt 1 3 0 09-APR-2009 23:38:49 AIPS procedure expid 3 0 09-APR-2009 23:38:49 AIPS string*20 expnm 3 0 09-APR-2009 23:38:49 AIPS string*75 expmsg 3 0 09-APR-2009 23:38:49 AIPS expnm='AG0145_1987JUL14_1' 3 0 09-APR-2009 23:38:49 AIPS expmsg='ARUN:'!!'AG0145_1987JUL14_1.3.log 3 0 09-APR-2009 23:38:49 AIPS return expnm 3 0 09-APR-2009 23:38:49 AIPS finish 3 0 09-APR-2009 23:38:49 AIPS type expid 3 5 09-APR-2009 23:38:49 AIPS 'AG0145_1987JUL14_1' 3 0 09-APR-2009 23:38:49 AIPS 3 0 09-APR-2009 23:38:49 AIPS docrt=1;type expid 3 5 09-APR-2009 23:38:49 AIPS 'AG0145_1987JUL14_1' 3 0 09-APR-2009 23:38:49 AIPS run avlapost 3 2 09-APR-2009 23:38:49 AIPS Found in Version=ABIN 3 2 09-APR-2009 23:38:49 AIPS $ Lorant Sjouwerman, versions 1.. 2005, for NRAO 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS $$ General catalog looks like 3 2 09-APR-2009 23:38:49 AIPS $$ Multi-source UV data file 3 2 09-APR-2009 23:38:49 AIPS $$ Multi-source TASAV file 3 2 09-APR-2009 23:38:49 AIPS $$ Single-source calibrated data - auvf 3 2 09-APR-2009 23:38:49 AIPS $$ Single-source calibrated images- aimg 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS $May need to redefine after a restore 0: 3 2 09-APR-2009 23:38:49 AIPS $allzap 3 2 09-APR-2009 23:38:49 AIPS $calcintt 3 2 09-APR-2009 23:38:49 AIPS $guesintt 3 2 09-APR-2009 23:38:49 AIPS $lsparm(5);tint;lsdisk 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS procedure nvascln 3 2 09-APR-2009 23:38:49 AIPS scalar alj,uvj, maj 3 2 09-APR-2009 23:38:49 AIPS clrname;indisk lsdisk;recat;chkname;alj=1-error;getname 1;inname'' 3 2 09-APR-2009 23:38:49 AIPS chkname;uvj=-error;intype'MA';inclass'NVAS08';chkname;maj=1-error 3 2 09-APR-2009 23:38:49 AIPS if((uvj=maj)&(uvj>0))then $count down in unlikely case of crash (status R/W) 3 2 09-APR-2009 23:38:49 AIPS type'CLEANUP SSRC, ALL:',maj,alj;for j=alj:1 by -1;egetn j;zap;end;clrtemp 3 2 09-APR-2009 23:38:49 AIPS else;type 'EXPECTED MA-FILES DO NOT MATCH UV-FILES; NO CLEANUP !';end 3 2 09-APR-2009 23:38:49 AIPS finish 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS procedure flatfov 3 2 09-APR-2009 23:38:49 AIPS $LOS - compile flatn-ed radius blank-ed images out to where pbcorr=2.5 (=xpb) 3 2 09-APR-2009 23:38:49 AIPS scalar uvi,mai,fov,frq,kk,tbw,tint,xpb,xcst,nif,fbw,fta;xpb=2.5 3 2 09-APR-2009 23:38:49 AIPS string*4 cootype 3 2 09-APR-2009 23:38:49 AIPS clrname;indisk=lsdisk;intype'UV';chkname;uvi=1-error 3 2 09-APR-2009 23:38:49 AIPS if(uvi<3)then;type'ERROR: NO FILES PROCESSED !';else 3 2 09-APR-2009 23:38:49 AIPS if(uvi<4)then;type'WARNING: ONLY ONE UV-FILE - MAYBE CHECK?';end 3 2 09-APR-2009 23:38:49 AIPS egetname 1;tint=guesintt;kk=1 3 2 09-APR-2009 23:38:49 AIPS xcst=sqrt((3/ln(2))*(xpb)/(xpb+1)); $ bit more field for BW/TA: xpb+1 3 2 09-APR-2009 23:38:49 AIPS while (kk<7) 3 2 09-APR-2009 23:38:49 AIPS keyvalue=0;keystrng'';keyword='CTYPE'!!char(kk);gethead 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,2)='IF')then;keyword='NAXIS'!!char(kk) 3 2 09-APR-2009 23:38:49 AIPS keystrng'';gethead;nif=keyvalue(1);kk=10;else;kk=kk+1;end;end;kk=1 3 2 09-APR-2009 23:38:49 AIPS while (kk<7) 3 2 09-APR-2009 23:38:49 AIPS keyvalue=0;keystrng'';keyword='CTYPE'!!char(kk);gethead 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,4)='FREQ')then;keyword='CRVAL'!!char(kk) 3 2 09-APR-2009 23:38:49 AIPS keystrng'';gethead;frq=keyvalue(1);kk=10;else;kk=kk+1;end;end 3 2 09-APR-2009 23:38:49 AIPS for i=3:uvi;egetname i 3 2 09-APR-2009 23:38:49 AIPS task'TABGET';inext'FQ';invers 1;keyword'NUM ROW';keystrng'';getthead 3 2 09-APR-2009 23:38:49 AIPS kk=keyvalue(1);for j=1:kk;pixxy=j,4,1;tabget;tbw=keyvalue(1) 3 2 09-APR-2009 23:38:49 AIPS if(nif=2)then;pixxy=j,4,2;tabget;tbw=max(tbw,keyvalue(1));end 3 2 09-APR-2009 23:38:49 AIPS end;intype'MA';inseq=0;inclass'*001';chkname;mai=1-error 3 2 09-APR-2009 23:38:49 AIPS if(mai>1)then;type'WARNING: MULTIPLE IMAGES - CHECK?';end;inclass'NVAS08' 3 2 09-APR-2009 23:38:49 AIPS chkname;if(error<1)then;type inname!!' : FLATFOV ALREADY DONE';mai=0;end 3 2 09-APR-2009 23:38:49 AIPS if (mai=1) then;inclass'*001' 3 2 09-APR-2009 23:38:49 AIPS for j=1:mai $ assume inseq starts at 1.. 3 2 09-APR-2009 23:38:49 AIPS inseq=j;kk=1;cellsize=0;userid=0 3 2 09-APR-2009 23:38:49 AIPS while (kk<5) 3 2 09-APR-2009 23:38:49 AIPS keyvalue=0;keystrng'';keyword='CTYPE'!!char(kk);gethead 3 2 09-APR-2009 23:38:49 AIPS keyword='CDELT'!!char(kk);clrtemp 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,3)='RA-')then;gethead;cellsize(1)=keyvalue(1);end 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,4)='DEC-')then;gethead;cellsize(2)=keyvalue(1);end 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,4)='FREQ')then;keyword='CRVAL'!!char(kk) 3 2 09-APR-2009 23:38:49 AIPS keystrng'';gethead;fov=keyvalue(1)/1e9;fov=1350/fov;end;kk=kk+1 3 2 09-APR-2009 23:38:49 AIPS end;cellsize(1)=-1*cellsize(1)*3600;cellsize(2)=cellsize(2)*3600 3 2 09-APR-2009 23:38:49 AIPS fta=min(1.75e10/(frq*abs(lsparm(5))),(min(cellsize(1),cellsize(2)))) 3 2 09-APR-2009 23:38:49 AIPS fbw=xcst*3*fta*frq/tbw $ radius field/view due bandwidth 3 2 09-APR-2009 23:38:49 AIPS fta=xcst*3*fta/(tint*7.2722e-5) $ radius field/view due averaging 3 2 09-APR-2009 23:38:49 AIPS fov=min(fov,fbw);fov=min(fov,fta) $ min field/view radius, arcsec 3 2 09-APR-2009 23:38:49 AIPS imsize(1)=ceil(2*fov/cellsize(1));imsize(2)=ceil(2*fov/cellsize(2)) 3 2 09-APR-2009 23:38:49 AIPS task'FLATN';inclass'?CL*';chkname;nfield=1-error;nmaps=1;clroname 3 2 09-APR-2009 23:38:49 AIPS outname=inname;coordina=0;reweight=0;doweight=0;edgskp=15;aparm=0 3 2 09-APR-2009 23:38:49 AIPS pbparm=1/xpb,0;type'MINIMUM FOV :'!!char(fov)!!' ARCSEC RADIUS' 3 2 09-APR-2009 23:38:49 AIPS inclass'?CL001';gx 3 2 09-APR-2009 23:38:49 AIPS $inclass'?CL*';allzap;recat 3 2 09-APR-2009 23:38:49 AIPS ;inclass'FLATN' 3 2 09-APR-2009 23:38:49 AIPS tput;default blank;tget flatn;task'BLANK';opcode'RADI';dparm fov,0 3 2 09-APR-2009 23:38:49 AIPS gx;allzap;recat 3 2 09-APR-2009 23:38:49 AIPS end;end;end;end 3 2 09-APR-2009 23:38:49 AIPS finish 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS procedure nvasimage 3 2 09-APR-2009 23:38:49 AIPS $LOS - Determine noise, do primary beam correction, include copyright 3 2 09-APR-2009 23:38:49 AIPS scalar numfle,ll,mm 3 2 09-APR-2009 23:38:49 AIPS string*20 expnm 3 2 09-APR-2009 23:38:49 AIPS if(expnm='')then;tget fillm;ll=length(infile);expnm=substr(infile,6,ll-1);end 3 2 09-APR-2009 23:38:49 AIPS clrname;indisk=lsdisk;recat;chkname;numfle=1-error;mai=0 3 2 09-APR-2009 23:38:49 AIPS while((mai'BLANK')) 3 2 09-APR-2009 23:38:49 AIPS mai=mai+1;egetname mai;end;if(inclass<>'BLANK')then;mai=numfle+1;end 3 2 09-APR-2009 23:38:49 AIPS for j=mai:numfle;default imean;docat=1;intype'SC';egetname j;chkname 3 2 09-APR-2009 23:38:49 AIPS if(error=0)then;keyvalue=0;keystrng'';keyword='CRPIX1';gethead 3 2 09-APR-2009 23:38:49 AIPS ll=keyvalue(1);keyword='CRPIX2';gethead;mm=keyvalue(1);doinvers=1 3 2 09-APR-2009 23:38:49 AIPS blc(1)=ll-29;blc(2)=mm-30;trc(1)=ll+30;trc(2)=mm+29;imstat;doinv=-1 3 2 09-APR-2009 23:38:49 AIPS blc=0;trc=0;rms=pixstd;go;wa;if(pixstd=rms)then;keyword'ACTNOISE' 3 2 09-APR-2009 23:38:49 AIPS keytype'R';keyvalue=rms,0;puthead;end;end;end 3 2 09-APR-2009 23:38:49 AIPS default'PBCOR';indisk=lsdisk;inclass'BLANK';chkname;pbparm=1/xpb,0 3 2 09-APR-2009 23:38:49 AIPS for j=mai:numfle 3 2 09-APR-2009 23:38:49 AIPS intype'SC';egetname mai;chkname;if(error=0)then;getoname mai 3 2 09-APR-2009 23:38:49 AIPS outclass'RADCOR';outseq=0;inclass'BLANK';outdisk=indisk;gx;zap;recat;end 3 2 09-APR-2009 23:38:49 AIPS end;default'CPYRT';indisk=lsdisk;recat;infile='AVLA:Arch_Cprt 3 2 09-APR-2009 23:38:49 AIPS for j=mai:numfle $ can only do on MA files 3 2 09-APR-2009 23:38:49 AIPS intype'SC';egetname mai;chkname;getoname mai;outclass'NVAS08' 3 2 09-APR-2009 23:38:49 AIPS if(inclass='RADCOR')then;gx;inclass'RADCOR';zap;recat;end;end 3 2 09-APR-2009 23:38:49 AIPS finish 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS procedure mkarr 3 2 09-APR-2009 23:38:49 AIPS string*1 sx,lx,az 3 2 09-APR-2009 23:38:49 AIPS string*4 nnsl 3 2 09-APR-2009 23:38:49 AIPS scalar aw, ae, an, ai 3 2 09-APR-2009 23:38:49 AIPS numbant=0;aw=0;ae=0;an=0 3 2 09-APR-2009 23:38:49 AIPS keyword'NUM ROW';inext'AN';invers=0;getthead;k=keyvalue(1) 3 2 09-APR-2009 23:38:49 AIPS for j=1:k 3 2 09-APR-2009 23:38:49 AIPS pixxy=j,1,0;tabget;i=1;clrtemp 3 2 09-APR-2009 23:38:49 AIPS while((substr(keystrng,i,i)<>':')&(i<9));i=i+1;end;clrtemp 3 2 09-APR-2009 23:38:49 AIPS if ((substr(keystrng,i+1,i+1)<>' ')&(substr(keystrng,i+1,i+1)<>'_'))then 3 2 09-APR-2009 23:38:49 AIPS lsvla=substr(keystrng,i+1,i+3);else;lsvla=substr(keystrng,i+2,i+4);end 3 2 09-APR-2009 23:38:49 AIPS az=substr(lsvla,1,1) 3 2 09-APR-2009 23:38:49 AIPS if ((lsvla<>'OUT')&(lsvla<>'MPD'))then;numbant=numbant+1 3 2 09-APR-2009 23:38:49 AIPS if (lsvla='VPT')then;ai=75;lx='P';else;ai=value(substr(lsvla,2,3)) 3 2 09-APR-2009 23:38:49 AIPS if(az='W')then;aw=max(aw,ai);else;if(az='E')then;ae=max(ae,ai);else 3 2 09-APR-2009 23:38:49 AIPS if(az='N')then;an=max(an,ai);else;if(lx<>'P')then 3 2 09-APR-2009 23:38:49 AIPS type lsvla!!' - ERROR: ANTENNA NOT KNOWN';end;end;end;end 3 2 09-APR-2009 23:38:49 AIPS clrtemp;end;end;end 3 2 09-APR-2009 23:38:49 AIPS if (lx<>'P')then;ai=max(aw,ae);ai=max(ai,an);lx='D';if(ai>36)then;lx='A' 3 2 09-APR-2009 23:38:49 AIPS else;if(ai>18)then;lx='B';else;if(ai>9)then;lx='C';end;end;end;end 3 2 09-APR-2009 23:38:49 AIPS ai=min(aw,ae);ai=min(ai,an);sx='A';if(ai<10)then;sx='D';else;if(ai<19)then 3 2 09-APR-2009 23:38:49 AIPS sx='C';else;if(ai<37)then;sx='B';end;end;end;clrtemp 3 2 09-APR-2009 23:38:49 AIPS if(numbant<10)then 3 2 09-APR-2009 23:38:49 AIPS nnsl='0'!!char(numbant)!!sx!!lx;else;nnsl=char(numbant)!!sx!!lx;end 3 2 09-APR-2009 23:38:49 AIPS return nnsl 3 2 09-APR-2009 23:38:49 AIPS finish 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS procedure nvasname 3 2 09-APR-2009 23:38:49 AIPS $LOS - makes the RA/Dec directory and returns the archive file name 3 2 09-APR-2009 23:38:49 AIPS scalar ki,ra1,ra2,dc1,dc2,rh,rm,rs,dd,dm,ds,rmsv,sbmv 3 2 09-APR-2009 23:38:49 AIPS scalar ifx,nif,nu,nu1,nu2,bw,nst,stv,msuv1,msuv2,msuv 3 2 09-APR-2009 23:38:49 AIPS string*1 pm,rmsc,stc,ik,rdi 3 2 09-APR-2009 23:38:49 AIPS string*2 zz 3 2 09-APR-2009 23:38:49 AIPS string*3 mmm 3 2 09-APR-2009 23:38:49 AIPS string*4 rmss,sbms,fras,frqs,nnsl,rads 3 2 09-APR-2009 23:38:49 AIPS string*30 dir 3 2 09-APR-2009 23:38:49 AIPS string*20 expnm 3 2 09-APR-2009 23:38:49 AIPS $ expnm = '' 3 2 09-APR-2009 23:38:49 AIPS if(expnm='')then 3 2 09-APR-2009 23:38:49 AIPS keyword'OBSERVER';gethead;expnm=keystrng;keyword'DATE-OBS';gethead 3 2 09-APR-2009 23:38:49 AIPS mmm=substr(keystrng,5,6) 3 2 09-APR-2009 23:38:49 AIPS if(mmm='01')then;mmm='JAN';end;if(mmm='02')then;mmm='FEB';end 3 2 09-APR-2009 23:38:49 AIPS if(mmm='03')then;mmm='MAR';end;if(mmm='04')then;mmm='APR';end 3 2 09-APR-2009 23:38:49 AIPS if(mmm='05')then;mmm='MAY';end;if(mmm='06')then;mmm='JUN';end 3 2 09-APR-2009 23:38:49 AIPS if(mmm='07')then;mmm='JUL';end;if(mmm='08')then;mmm='AUG';end 3 2 09-APR-2009 23:38:49 AIPS if(mmm='09')then;mmm='SEP';end;if(mmm='10')then;mmm='OCT';end 3 2 09-APR-2009 23:38:49 AIPS if(mmm='11')then;mmm='NOV';end;if(mmm='12')then;mmm='DEC';end 3 2 09-APR-2009 23:38:49 AIPS expnm=expnm!!'_'!!substr(keystrng,1,4)!!mmm!!substr(keystrng,7,8)!!'_1' 3 2 09-APR-2009 23:38:49 AIPS end;ki=1;userid=0 3 2 09-APR-2009 23:38:49 AIPS while (ki<9) 3 2 09-APR-2009 23:38:49 AIPS ik=char(ki);keyvalue=0;keystrng'';keyword='CTYPE'!!ik;gethead;clrtemp 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,2)='RA')then 3 2 09-APR-2009 23:38:49 AIPS keyword='CRVAL'!!ik;gethead;ra1=keyvalue(1);ra2=keyvalue(2);msuv1=ra1+ra2 3 2 09-APR-2009 23:38:49 AIPS keyword='CDELT'!!ik;gethead;cellsize(1)=-1*keyvalue(1)*3600;ra1=ra1/15 3 2 09-APR-2009 23:38:49 AIPS ra2=ra2/15;rh=floor(ra1);ra1=(ra1-rh)*60;rm=floor(ra1);ra1=(ra1-rm)*60 3 2 09-APR-2009 23:38:49 AIPS rs=((floor((ra1+(3600*ra2))*1000)+0.005)/1000);clrtemp 3 2 09-APR-2009 23:38:49 AIPS if(abs(rs-floor(abs(rs)))<0.1)then;rs=0;zz='.0';else;zz='';end;clrtemp 3 2 09-APR-2009 23:38:49 AIPS keyword='NAXIS'!!ik;gethead;ra1=0.5*keyvalue(1)*cellsize(1);end 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,3)='DEC')then 3 2 09-APR-2009 23:38:49 AIPS keyword='CRVAL'!!ik;gethead;dc1=keyvalue(1);dc2=keyvalue(2);msuv1=dc1+dc2 3 2 09-APR-2009 23:38:49 AIPS keyword='CDELT'!!ik;gethead;cellsize(2)=keyvalue(1)*3600 3 2 09-APR-2009 23:38:49 AIPS if(dc1<0)then;pm='-';dc1=-1*dc1;dc2=-1*dc2;else;pm='+';end 3 2 09-APR-2009 23:38:49 AIPS dd=floor(dc1);dc1=(dc1-dd)*60;dm=floor(dc1);dc1=(dc1-dm)*60 3 2 09-APR-2009 23:38:49 AIPS ds=floor(dc1+(3600*dc2)+0.0005);clrtemp;keyword='NAXIS'!!ik 3 2 09-APR-2009 23:38:49 AIPS gethead;dc1=0.5*(keyvalue(1)-10)*cellsize(2);end $ie correct for (c)-top 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,2)='IF')then 3 2 09-APR-2009 23:38:49 AIPS keyword='NAXIS'!!ik;gethead;nif=keyvalue(1);clrtemp;end 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,4)='FREQ')then 3 2 09-APR-2009 23:38:49 AIPS keyword='CRVAL'!!ik;gethead;nu1=keyvalue(1)/1e6;nu2=keyvalue(2)/1e6 3 2 09-APR-2009 23:38:49 AIPS keyword='CDELT'!!ik;gethead;bw=keyvalue(1)/1e6;end;nu=(nu1+nu2);clrtemp 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,6)='STOKES')then 3 2 09-APR-2009 23:38:49 AIPS keyword='CRVAL'!!ik;gethead;stv=keyvalue(1) 3 2 09-APR-2009 23:38:49 AIPS keyword='NAXIS'!!ik;gethead;nst=keyvalue(1);clrtemp 3 2 09-APR-2009 23:38:49 AIPS if(nst=4)then;stc='F';else;if(nst=2)then;stc='H';else;if(stv=-1)then 3 2 09-APR-2009 23:38:49 AIPS stc='R';else;if(stv=-2)then;stc='L';else;if(stv=-5)then;stc='X' 3 2 09-APR-2009 23:38:49 AIPS else;if(stv=-6)then;stc='Y';else;if(stv >0)then;stc='I';else 3 2 09-APR-2009 23:38:49 AIPS stc='U';end;end;end;end;end;end;end;end 3 2 09-APR-2009 23:38:49 AIPS if(substr(keystrng,1,1)='')then;ki=10;else;ki=ki+1;end 3 2 09-APR-2009 23:38:49 AIPS end;clrtemp $ build the output file name here 3 2 09-APR-2009 23:38:49 AIPS if(intype='UV')then;nu1=0;nu2=0;clrtemp;inext'FQ';for ifx=1:nif 3 2 09-APR-2009 23:38:49 AIPS pixxy=1,2,ifx;tabget;nu1=nu1+((keyvalue(1)+keyvalue(2))/1e6) 3 2 09-APR-2009 23:38:49 AIPS pixxy=1,3,ifx;tabget;nu2=nu2+((keyvalue(1)+keyvalue(2))/1e6);end 3 2 09-APR-2009 23:38:49 AIPS nu=nu+0.5*(nu1+(0.5*nu2));clrtemp;else;if(intype='MA')then 3 2 09-APR-2009 23:38:49 AIPS fras=substr(char(0.5*(ra1+dc1)),1,4);nu=nu+(bw/(2*nif));else 3 2 09-APR-2009 23:38:49 AIPS type 'ERROR: FILE TYPE UNKNOWN (HOW DID THIS HAPPEN?)';end;end 3 2 09-APR-2009 23:38:49 AIPS frqs=substr(char((nu+5)/1000),1,4);clrtemp;sys2com(1)=' $aimg/ 3 2 09-APR-2009 23:38:49 AIPS if (intype='MA')then; $read conv size,rms from header, use imsi*cell/2 for R 3 2 09-APR-2009 23:38:49 AIPS rdi='S';ra2=0.5*(ra1+dc1-9);if(ra2>60)then;rdi='M';ra2=ra2/60;end $ R-fov 3 2 09-APR-2009 23:38:49 AIPS if(ra2>60)then;rdi='D';ra2=ra2/60;end;rads=substr(char(ra2),1,4) 3 2 09-APR-2009 23:38:49 AIPS keyword='BMAJ';gethead;sbmv=keyvalue(1);keyword='BMIN';gethead 3 2 09-APR-2009 23:38:49 AIPS sbmv=1800*(sbmv+keyvalue(1));sbms=substr(char(sbmv),1,4) 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS keyvalue=0;keystrng'';keyword='ACTNOISE';gethead;rmsv=keyvalue(1) $ RMS<1e4 3 2 09-APR-2009 23:38:49 AIPS if(rmsv>1)then;rmsc='J';rmss=substr(char(rmsv),1,4);else;rmsv=rmsv*1000 3 2 09-APR-2009 23:38:49 AIPS if(rmsv>1)then;rmsc='M';rmss=substr(char(rmsv),1,4);else;rmsv=rmsv*1000 3 2 09-APR-2009 23:38:49 AIPS if(rmsv>1)then;rmsc='U';rmss=substr(char(rmsv),1,4);else 3 2 09-APR-2009 23:38:49 AIPS rmsv=rmsv*1000;rmsc='N';rmss=substr(char(rmsv),1,4) 3 2 09-APR-2009 23:38:49 AIPS end;end;end;clrtemp;fras='';while(length(frqs)<4);frqs=frqs!!'0';end 3 2 09-APR-2009 23:38:49 AIPS while(length(rads)<4);rads=rads!!'0';end;while(length(rmss)<4) 3 2 09-APR-2009 23:38:49 AIPS rmss=rmss!!'0';end;while(length(sbms)<4);sbms=sbms!!'0';end 3 2 09-APR-2009 23:38:49 AIPS outfile=frqs!!stc!!sbms!!'_'!!expnm!!'_'!!rmss!!rmsc!!fras!!rads!!rdi 3 2 09-APR-2009 23:38:49 AIPS else;outprint=frqs!!stc!!nnsl!!'_'!!expnm;outfile=outprint!!'.uvfits 3 2 09-APR-2009 23:38:49 AIPS end 3 2 09-APR-2009 23:38:49 AIPS msuv=(sqrt((msuv1*msuv1)+(msuv2*msuv2)))*3600 3 2 09-APR-2009 23:38:49 AIPS if(msuv>5)then $ not multisource UV, make a source dir 3 2 09-APR-2009 23:38:49 AIPS dir='';sysout'';syscom'umask 0;mkdir 3 2 09-APR-2009 23:38:49 AIPS if(rh<10)then;sys2com(2)='J0'!!char(rh);else;sys2com(2)='J'!! char(rh);end 3 2 09-APR-2009 23:38:49 AIPS if(rm<10)then;sys2com(3)='0'!!char(rm);else;sys2com(3)=char(rm);end 3 2 09-APR-2009 23:38:49 AIPS if(rs<10)then;sys2com(4)='0'!!char(rs)!!zz;else;sys2com(4)=char(rs)!!zz;end 3 2 09-APR-2009 23:38:49 AIPS sys2com(4)=substr(sys2com(4),1,4);clrtemp 3 2 09-APR-2009 23:38:49 AIPS if(dd<10)then;sys2com(5)=pm!!'0'!!char(dd);else;sys2com(5)=pm!!char(dd);end 3 2 09-APR-2009 23:38:49 AIPS if(dm<10)then;sys2com(6)='0'!!char(dm);else;sys2com(6)=char(dm);end 3 2 09-APR-2009 23:38:49 AIPS if(ds<10)then;sys2com(7)='0'!!char(ds);else;sys2com(7)=char(ds);end 3 2 09-APR-2009 23:38:49 AIPS sys2com(7)=substr(sys2com(7),1,2);clrtemp 3 2 09-APR-2009 23:38:49 AIPS sys2com(8) ' >& /dev/null 3 2 09-APR-2009 23:38:49 AIPS system;clrtemp;for i=1:7;dir=dir!!sys2com(i);end;ki=length(dir) $must be 23 3 2 09-APR-2009 23:38:49 AIPS dir=substr(dir,8,ki);if(ki<>23)then;type'OOPS: WRONG DIRECTORY NAME ?';end 3 2 09-APR-2009 23:38:49 AIPS end;syscom'';sys2com'';clrtemp 3 2 09-APR-2009 23:38:49 AIPS return 3 2 09-APR-2009 23:38:49 AIPS finish 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS procedure nvasarch 3 2 09-APR-2009 23:38:49 AIPS $LOS - archives the files to disk - define $EXP (and $AVLA/$ADAT/$AIMG/$AUVF) 3 2 09-APR-2009 23:38:49 AIPS string*4 nnsl 3 2 09-APR-2009 23:38:49 AIPS string*20 expnm 3 2 09-APR-2009 23:38:49 AIPS string*64 expfile 3 2 09-APR-2009 23:38:49 AIPS scalar nn,mai,uvi,xe,nif 3 2 09-APR-2009 23:38:49 AIPS clrname;indisk=lsdisk;chkname;numfle=1-error;intype'UV';chkname;uvi=1-error 3 2 09-APR-2009 23:38:49 AIPS default fitab;indisk=lsdisk;recat;douvcomp=-1;nif=2;type expid 3 2 09-APR-2009 23:38:49 AIPS $2IF IM, or reset in uv#1 3 2 09-APR-2009 23:38:49 AIPS if(numfle>3)then $ at least 1UVF, 1TSV, 1SS, 1MA 3 2 09-APR-2009 23:38:49 AIPS egetname 1;nnsl=mkarr;nvasname;i=1;clrtemp;syscom'umask 0;mkdir 3 2 09-APR-2009 23:38:49 AIPS while((substr(expnm,i,i)<>'_')&(i<21));i=i+1;end;dir=substr(expnm,1,i-1) 3 2 09-APR-2009 23:38:49 AIPS outfile='ADAT:'!!expnm!!'_'!!frqs!!stc!!nnsl!!'.uvfits 3 2 09-APR-2009 23:38:49 AIPS sysout'';sys2com'';sys2com(2) ' >& /dev/null 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)' $ADAT/'!!dir;system;gx;clrtemp;egetname 2;clrtemp;syscom'\mv -f 3 2 09-APR-2009 23:38:49 AIPS outfile='ADAT:'!!expnm!!'_'!!frqs!!stc!!nnsl!!'.clfits 3 2 09-APR-2009 23:38:49 AIPS gx;sys2com(1)' $ADAT/'!!expnm!!'_* $ADAT/'!!dir;system 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)' $ADAT/'!!expnm!!'.* $ADAT/'!!dir 3 2 09-APR-2009 23:38:49 AIPS $system 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)' $ARUN/'!!expnm!!'.* $ADAT/'!!dir 3 2 09-APR-2009 23:38:49 AIPS $system 3 2 09-APR-2009 23:38:49 AIPS j=2;mai=0 3 2 09-APR-2009 23:38:49 AIPS while(j& /dev/null 3 2 09-APR-2009 23:38:49 AIPS outfile='AIMG:'!!outfile;dparm(5)=1;if(xe=1)then;gx 3 2 09-APR-2009 23:38:49 AIPS if(numtab('PL')<1)then;type'NO UV PLOTS';else;if (numtab('PL')<2) then 3 2 09-APR-2009 23:38:49 AIPS type'SINGLE PLOT, ASSUMING UV COVERAGE' 3 2 09-APR-2009 23:38:49 AIPS else;if(numtab('PL')>2)then;plver=3;outfile='AIMG:'!!outprint!!'.vis.ps 3 2 09-APR-2009 23:38:49 AIPS go lwpla;wait lwpla;syscom'convert $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)=outprint!!'.vis.ps $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(2)=outprint!!'.vis.gif 3 2 09-APR-2009 23:38:49 AIPS system;end;plver=2;outfile='AIMG:'!!outprint!!'.ri.ps 3 2 09-APR-2009 23:38:49 AIPS go lwpla;wait lwpla;syscom'convert $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)=outprint!!'.ri.ps $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(2)=outprint!!'.ri.gif 3 2 09-APR-2009 23:38:49 AIPS system;end;plver=1;outfile='AIMG:'!!outprint!!'.uv.ps 3 2 09-APR-2009 23:38:49 AIPS go lwpla;wait lwpla;dparm(5)=0;sys2com(1)=outprint!!'.uv.ps $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(2)=outprint!!'.uv.gif 3 2 09-APR-2009 23:38:49 AIPS system;sys2com(2)='';syscom'chmod 666 $aimg/ 3 2 09-APR-2009 23:38:49 AIPS $ sys2com(1)=outprint!!'.*.ps 3 2 09-APR-2009 23:38:49 AIPS $ system;sys2com(1)=outprint!!'.*.gif 3 2 09-APR-2009 23:38:49 AIPS $ system;sys2com(1)=outprint!!'.uvfits 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)=outprint!!'* 3 2 09-APR-2009 23:38:49 AIPS system;end;end;clrtemp;syscom'\mv -f $aimg/ 3 2 09-APR-2009 23:38:49 AIPS $ sys2com(1)=substr(outfile,6,length(outfile))!!' $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)=outprint!!'.* $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(2)=dir;system;clrtemp;end;for nn=(uvi+1):numfle $ archive MAps 3 2 09-APR-2009 23:38:49 AIPS egetname nn;chkname;xe=1-error;if((intype='MA')&(inclass='NVAS08'))then 3 2 09-APR-2009 23:38:49 AIPS nvasname;sysout'';sys2com'';sys2com(8)' >& /dev/null 3 2 09-APR-2009 23:38:49 AIPS expfile=outfile;outfile='AIMG:'!!outfile 3 2 09-APR-2009 23:38:49 AIPS if(xe=1)then;gx;syscom'umask 0;\mv -f $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)=expfile!!' $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(2)=expfile!!'.imfits 3 2 09-APR-2009 23:38:49 AIPS system;clrtemp;syscom'umask 0;fits2jpeg -nonLinear -fits $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(1)=expfile!!'.imfits -jpeg $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(2)=expfile!!'.jpg 3 2 09-APR-2009 23:38:49 AIPS sys2com(3)=' ; convert -size 150x150 $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(4)=expfile!!'.jpg 3 2 09-APR-2009 23:38:49 AIPS sys2com(5)=' -resize 150x150 -gamma 1.5 -depth 32 $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(6)=expfile!!'.JPG'!!' ; \mv -f $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(7)=expfile!!'* $aimg/ 3 2 09-APR-2009 23:38:49 AIPS sys2com(8) dir!!sys2com(8);system;clrtemp;end;end;end;end 3 2 09-APR-2009 23:38:49 AIPS type 'NVASARCH DONE - CLEANING UP';nvascln 3 2 09-APR-2009 23:38:49 AIPS finish 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS $procedure nvas 3 2 09-APR-2009 23:38:49 AIPS $ typ expid;flatfov;if(uvi>3)then;nvasimage;nvasarch;end 3 2 09-APR-2009 23:38:49 AIPS $finish 3 2 09-APR-2009 23:38:49 AIPS 3 2 09-APR-2009 23:38:49 AIPS procedure nvas 3 2 09-APR-2009 23:38:49 AIPS typ expid;flatfov;if(uvi>3)then;nvasimage;end;clrtemp;clrname;indisk lsdisk 3 2 09-APR-2009 23:38:49 AIPS recat;chkname;alj=1-error;getname 1;inname'';chkname;uvj=-error;intype'MA' 3 2 09-APR-2009 23:38:49 AIPS inclass'NVAS08';chkname;maj=1-error;if (uvj=maj) then;nvasarch;end;clrtemp 3 2 09-APR-2009 23:38:49 AIPS finish 3 0 09-APR-2009 23:38:49 AIPS avlapipe 3 2 09-APR-2009 23:38:49 AIPS Found in Version=ABIN 3 2 09-APR-2009 23:38:49 AIPS Found in Version=ABIN 3 2 09-APR-2009 23:38:49 AIPS Got(1) disk= 1 user=**** type=UV 19870714.L BAND.1 3 5 09-APR-2009 23:38:49 AIPS 'AIPS WILL CHOOSE THE REFERENCE ANTENNA' 3 2 09-APR-2009 23:38:49 AIPS Got(1) disk= 1 user=**** type=UV 19870714.L BAND.1 3 5 09-APR-2009 23:38:49 AIPS 'SETFC WILL DETERMINE THE CELL SIZE' 3 5 09-APR-2009 23:38:50 AIPS '10 SECOND INTEGRATIONS (GUESS)' 3 5 09-APR-2009 23:38:50 AIPS 'DONE CLEANUP OF OLD TABLE EXTENTION FILES (CL,SN,FG,BP,PL,XX)' 3 5 09-APR-2009 23:38:50 QUACK Task QUACK (release of 31DEC07) begins 3 4 09-APR-2009 23:38:50 QUACK Flagged 0.67 min. of data in 2 scans 3 3 09-APR-2009 23:38:54 QUACK Appears to have ended successfully 3 5 09-APR-2009 23:38:54 QUACK vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 4 3 2 09-APR-2009 23:38:54 AIPS Resumes 3 5 09-APR-2009 23:38:54 FLAGR Task FLAGR (release of 31DEC07) begins 3 3 09-APR-2009 23:38:58 FLAGR Copied FG file from vol/cno/vers 1 1 1 to 1 1 2 3 4 09-APR-2009 23:38:59 FLAGR Overall average amp= 1.365E+00 +- 1.354E-01 source= 3C286 3 4 09-APR-2009 23:38:59 FLAGR Overall average rms= 3.405E-03 +- 5.220E-04 source= 3C286 3 4 09-APR-2009 23:38:59 FLAGR Overall average amp= 8.112E-01 +- 8.621E-02 source= 3C345 3 4 09-APR-2009 23:38:59 FLAGR Overall average rms= 3.538E-03 +- 1.263E-03 source= 3C345 3 5 09-APR-2009 23:38:59 FLAGR Found 1 bad times, 54 total flags 3 5 09-APR-2009 23:38:59 FLAGR Wrote 0 antenna & IF independent flags 3 5 09-APR-2009 23:38:59 FLAGR Wrote 2 antenna independent, IF dependent flags 3 5 09-APR-2009 23:38:59 FLAGR Wrote 52 antenna & IF dependent flags 3 5 09-APR-2009 23:38:59 FLAGR Wrote 0 antenna & IF dependent, all-times flags 3 3 09-APR-2009 23:38:59 FLAGR Appears to have ended successfully 3 5 09-APR-2009 23:38:59 FLAGR vlbacald-a 31DEC07 TST: Cpu= 0.4 Real= 5 3 2 09-APR-2009 23:38:59 AIPS Resumes 3 5 09-APR-2009 23:38:59 SETJY Task SETJY (release of 31DEC07) begins 3 2 09-APR-2009 23:38:59 SETJY / Resetting flux information to zero 3 2 09-APR-2009 23:38:59 SETJY BIF = 1 EIF = 2 /Range of IFs 3 2 09-APR-2009 23:38:59 SETJY SOURCES = '' /All sources selected 3 3 09-APR-2009 23:38:59 SETJY Appears to have ended successfully 3 5 09-APR-2009 23:38:59 SETJY vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 09-APR-2009 23:38:59 AIPS Resumes 3 5 09-APR-2009 23:39:00 SETJY Task SETJY (release of 31DEC07) begins 3 5 09-APR-2009 23:39:00 SETJY A source model for this calibrator may be available 3 5 09-APR-2009 23:39:00 SETJY Use the verb CALDIR to see if there is one 3 5 09-APR-2009 23:39:00 SETJY A source model for this calibrator may be available 3 5 09-APR-2009 23:39:00 SETJY Use the verb CALDIR to see if there is one 3 2 09-APR-2009 23:39:00 SETJY / Flux calculated using known spectrum 3 2 09-APR-2009 23:39:00 SETJY BIF = 1 EIF = 2 /Range of IFs 3 2 09-APR-2009 23:39:00 SETJY '3C286 ' IF = 1 FLUX =14.5108 (Jy calcd) 3 2 09-APR-2009 23:39:00 SETJY '3C286 ' IF = 2 FLUX =14.2781 (Jy calcd) 3 2 09-APR-2009 23:39:00 SETJY / Using (1999.2) VLA or Reynolds (1934-638) coefficients 3 3 09-APR-2009 23:39:00 SETJY Appears to have ended successfully 3 5 09-APR-2009 23:39:00 SETJY vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 09-APR-2009 23:39:00 AIPS Resumes 3 5 09-APR-2009 23:39:00 CALIB Task CALIB (release of 31DEC07) begins 3 3 09-APR-2009 23:39:00 CALIB CALIB USING 19870714 . L BAND . 1 DISK= 1 USID=**** 3 3 09-APR-2009 23:39:00 CALIB L1 Solution type 3 2 09-APR-2009 23:39:00 CALIB Selecting, editing and calibrating the data 3 3 09-APR-2009 23:39:00 CALIB Doing cal transfer mode with point model for each source 3 3 09-APR-2009 23:39:00 CALIB This is not self-calibration 3 2 09-APR-2009 23:39:00 CALIB Dividing data by source flux densities 3 2 09-APR-2009 23:39:00 CALIB Determining solutions 3 3 09-APR-2009 23:39:00 CALIB Writing SN table 1 3 5 09-APR-2009 23:39:00 CALIB Found 1057 good solutions 3 5 09-APR-2009 23:39:00 CALIB Failed on 47 solutions 3 4 09-APR-2009 23:39:00 CALIB Average closure rms = 0.0185 +- 0.0099 3 4 09-APR-2009 23:39:00 CALIB Fraction of times having data > 2.5 rms from solution 3 4 09-APR-2009 23:39:00 CALIB 0.33333 of the times had 0 - 2 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:00 CALIB 0.59524 of the times had 2 - 4 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:00 CALIB 0.07143 of the times had 4 - 6 percent outside 2.5 times rms 3 2 09-APR-2009 23:39:00 CALIB Adjusting solutions to a common reference antenna 3 3 09-APR-2009 23:39:01 CALIB Appears to have ended successfully 3 5 09-APR-2009 23:39:01 CALIB vlbacald-a 31DEC07 TST: Cpu= 0.3 Real= 1 3 2 09-APR-2009 23:39:01 AIPS Resumes 3 5 09-APR-2009 23:39:01 AIPS '3C286 MODEL =' '3C286_L' 3 3 09-APR-2009 23:39:01 AIPS SYSTEM command to be executed is: 3 3 09-APR-2009 23:39:01 AIPS ls -1 $AIPSTARS/3C286_L.MODEL >& /dev/null 3 5 09-APR-2009 23:39:01 CALRD Task CALRD (release of 31DEC07) begins 3 2 09-APR-2009 23:39:01 CALRD Reading disk file AIPSTARS:3C286_L.MODEL 3 2 09-APR-2009 23:39:02 CALRD Create 3C286_L .MODEL . 1 (MA) on disk 1 cno 2 3 3 09-APR-2009 23:39:03 CALRD Appears to have ended successfully 3 5 09-APR-2009 23:39:03 CALRD vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 2 3 2 09-APR-2009 23:39:03 AIPS Resumes 3 5 09-APR-2009 23:39:03 CALIB Task CALIB (release of 31DEC07) begins 3 3 09-APR-2009 23:39:03 CALIB CALIB USING 19870714 . L BAND . 1 DISK= 1 USID=**** 3 3 09-APR-2009 23:39:03 CALIB L1 Solution type 3 2 09-APR-2009 23:39:03 CALIB Selecting, editing and calibrating the data 3 3 09-APR-2009 23:39:04 CALIB Doing self-cal mode with CC model 3 4 09-APR-2009 23:39:04 CALIB SETGDS: imaging done with reprojected tangent point(s) 3 3 09-APR-2009 23:39:04 CALIB FACSET: source model will be scaled to 14.511 Jy 3 3 09-APR-2009 23:39:04 CALIB FACSET: 15.457486 Jy found from 1424 components 3 4 09-APR-2009 23:39:04 CALIB FACSET: scaling factor set to 9.38753E-01 3 2 09-APR-2009 23:39:04 CALIB QINIT: did a GET of 20480 Kwords, OFF -90613365 3 2 09-APR-2009 23:39:04 CALIB VISDFT: Begin DFT component division 3 2 09-APR-2009 23:39:04 CALIB VISDFT: Model components of type Point 3 3 09-APR-2009 23:39:04 CALIB I Polarization model processed 3 2 09-APR-2009 23:39:04 CALIB Model computation is 20 percent complete 3 2 09-APR-2009 23:39:05 CALIB Model computation is 40 percent complete 3 2 09-APR-2009 23:39:05 CALIB Model computation is 60 percent complete 3 2 09-APR-2009 23:39:08 CALIB Model computation is 80 percent complete 3 2 09-APR-2009 23:39:08 CALIB Model computation is 100 percent complete 3 3 09-APR-2009 23:39:08 CALIB FACSET: source model will be scaled to 14.278 Jy 3 3 09-APR-2009 23:39:08 CALIB FACSET: 15.457486 Jy found from 1424 components 3 4 09-APR-2009 23:39:08 CALIB FACSET: scaling factor set to 9.23699E-01 3 2 09-APR-2009 23:39:08 CALIB VISDFT: Begin DFT component division 3 3 09-APR-2009 23:39:08 CALIB I Polarization model processed 3 3 09-APR-2009 23:39:11 CALIB Field 1 used 1424 CCs 3 2 09-APR-2009 23:39:11 CALIB Determining solutions 3 6 09-APR-2009 23:39:11 CALIB Deleted 203 records from SN table no. 1 3 3 09-APR-2009 23:39:11 CALIB Writing SN table 1 3 5 09-APR-2009 23:39:11 CALIB Found 809 good solutions 3 5 09-APR-2009 23:39:11 CALIB Failed on 3 solutions 3 4 09-APR-2009 23:39:11 CALIB Average closure rms = 0.0060 +- 0.0008 3 4 09-APR-2009 23:39:11 CALIB Fraction of times having data > 2.5 rms from solution 3 4 09-APR-2009 23:39:11 CALIB 0.03125 of the times had 0 - 2 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:11 CALIB 0.53125 of the times had 2 - 4 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:11 CALIB 0.28125 of the times had 4 - 6 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:11 CALIB 0.12500 of the times had 6 - 8 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:11 CALIB 0.03125 of the times had 8 - 10 percent outside 2.5 times rms 3 2 09-APR-2009 23:39:11 CALIB Adjusting solutions to a common reference antenna 3 3 09-APR-2009 23:39:12 CALIB Appears to have ended successfully 3 5 09-APR-2009 23:39:12 CALIB vlbacald-a 31DEC07 TST: Cpu= 6.0 Real= 9 3 2 09-APR-2009 23:39:12 AIPS Resumes 3 5 09-APR-2009 23:39:12 CLCAL Task CLCAL (release of 31DEC07) begins 3 4 09-APR-2009 23:39:12 CLCAL Using interpolation mode 2PT 3 3 09-APR-2009 23:39:12 CLCAL Processing SN table 1 3 5 09-APR-2009 23:39:12 CLCAL SNMRG: Merging SN table 3 5 09-APR-2009 23:39:12 CLCAL SNMRG: Write 276 merged records from 276 input records 3 4 09-APR-2009 23:39:12 CLCAL SN2CL: Applying SN tables to CL table 1, writing CL table 2 3 3 09-APR-2009 23:39:12 CLCAL Appears to have ended successfully 3 5 09-APR-2009 23:39:12 CLCAL vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 09-APR-2009 23:39:12 AIPS Resumes 3 5 09-APR-2009 23:39:12 CLCAL Task CLCAL (release of 31DEC07) begins 3 4 09-APR-2009 23:39:12 CLCAL Using interpolation mode SELF 3 6 09-APR-2009 23:39:12 CLCAL Deleted 1274 records from CL table no. 2 3 3 09-APR-2009 23:39:12 CLCAL Processing SN table 1 3 6 09-APR-2009 23:39:12 CLCAL WARNING: SN table 1 has already been applied 3 5 09-APR-2009 23:39:12 CLCAL SNMRG: Merging SN table 3 5 09-APR-2009 23:39:12 CLCAL SNMRG: Write 276 merged records from 276 input records 3 4 09-APR-2009 23:39:12 CLCAL SN2CL: Applying SN tables to CL table 1, writing CL table 2 3 3 09-APR-2009 23:39:12 CLCAL Appears to have ended successfully 3 5 09-APR-2009 23:39:12 CLCAL vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 09-APR-2009 23:39:13 AIPS Resumes 3 5 09-APR-2009 23:39:13 CALIB Task CALIB (release of 31DEC07) begins 3 3 09-APR-2009 23:39:13 CALIB CALIB USING 19870714 . L BAND . 1 DISK= 1 USID=**** 3 3 09-APR-2009 23:39:13 CALIB L1 Solution type 3 2 09-APR-2009 23:39:13 CALIB Selecting, editing and calibrating the data 3 3 09-APR-2009 23:39:13 CALIB Doing cal transfer mode with point model for each source 3 3 09-APR-2009 23:39:13 CALIB This is not self-calibration 3 2 09-APR-2009 23:39:13 CALIB Dividing data by source flux densities 3 2 09-APR-2009 23:39:13 CALIB Determining solutions 3 3 09-APR-2009 23:39:13 CALIB Writing SN table 2 3 5 09-APR-2009 23:39:13 CALIB RPOL, IF= 1 The average gain over these antennas is 2.542E+00 3 5 09-APR-2009 23:39:13 CALIB RPOL, IF= 2 The average gain over these antennas is 2.563E+00 3 5 09-APR-2009 23:39:13 CALIB LPOL, IF= 1 The average gain over these antennas is 2.547E+00 3 5 09-APR-2009 23:39:13 CALIB LPOL, IF= 2 The average gain over these antennas is 2.574E+00 3 5 09-APR-2009 23:39:13 CALIB Found 310 good solutions 3 5 09-APR-2009 23:39:13 CALIB Failed on 2 solutions 3 4 09-APR-2009 23:39:13 CALIB Average closure rms = 0.0150 +- 0.0186 3 4 09-APR-2009 23:39:13 CALIB Fraction of times having data > 2.5 rms from solution 3 4 09-APR-2009 23:39:13 CALIB 0.08333 of the times had 0 - 2 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:13 CALIB 0.75000 of the times had 2 - 4 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:13 CALIB 0.16667 of the times had 4 - 6 percent outside 2.5 times rms 3 2 09-APR-2009 23:39:13 CALIB Adjusting solutions to a common reference antenna 3 8 09-APR-2009 23:39:13 CALIB CALREF: CANNOT RELATE ANTENNA 6 TO 14 IN SUBARRAY 1 3 6 09-APR-2009 23:39:13 CALIB Some solutions were not adjusted to the common 3 6 09-APR-2009 23:39:13 CALIB reference antenna. This may be because one or more 3 6 09-APR-2009 23:39:13 CALIB antennas were not used. Check your data before 3 6 09-APR-2009 23:39:13 CALIB proceeding. 3 3 09-APR-2009 23:39:13 CALIB Appears to have ended successfully 3 5 09-APR-2009 23:39:13 CALIB vlbacald-a 31DEC07 TST: Cpu= 0.3 Real= 0 3 2 09-APR-2009 23:39:13 AIPS Resumes 3 5 09-APR-2009 23:39:13 CALIB Task CALIB (release of 31DEC07) begins 3 3 09-APR-2009 23:39:13 CALIB CALIB USING 19870714 . L BAND . 1 DISK= 1 USID=**** 3 3 09-APR-2009 23:39:13 CALIB L1 Solution type 3 2 09-APR-2009 23:39:13 CALIB Selecting, editing and calibrating the data 3 3 09-APR-2009 23:39:13 CALIB Doing self-cal mode with CC model 3 4 09-APR-2009 23:39:13 CALIB SETGDS: imaging done with reprojected tangent point(s) 3 3 09-APR-2009 23:39:13 CALIB FACSET: source model will be scaled to 14.511 Jy 3 3 09-APR-2009 23:39:13 CALIB FACSET: 15.457486 Jy found from 1424 components 3 4 09-APR-2009 23:39:13 CALIB FACSET: scaling factor set to 9.38753E-01 3 2 09-APR-2009 23:39:13 CALIB QINIT: did a GET of 20480 Kwords, OFF -90668661 3 2 09-APR-2009 23:39:13 CALIB VISDFT: Begin DFT component division 3 2 09-APR-2009 23:39:13 CALIB VISDFT: Model components of type Point 3 3 09-APR-2009 23:39:13 CALIB I Polarization model processed 3 2 09-APR-2009 23:39:14 CALIB Model computation is 20 percent complete 3 2 09-APR-2009 23:39:14 CALIB Model computation is 40 percent complete 3 2 09-APR-2009 23:39:15 CALIB Model computation is 60 percent complete 3 2 09-APR-2009 23:39:16 CALIB Model computation is 80 percent complete 3 2 09-APR-2009 23:39:16 CALIB Model computation is 100 percent complete 3 3 09-APR-2009 23:39:16 CALIB FACSET: source model will be scaled to 14.278 Jy 3 3 09-APR-2009 23:39:16 CALIB FACSET: 15.457486 Jy found from 1424 components 3 4 09-APR-2009 23:39:16 CALIB FACSET: scaling factor set to 9.23699E-01 3 2 09-APR-2009 23:39:16 CALIB VISDFT: Begin DFT component division 3 3 09-APR-2009 23:39:16 CALIB I Polarization model processed 3 3 09-APR-2009 23:39:19 CALIB Field 1 used 1424 CCs 3 2 09-APR-2009 23:39:19 CALIB Determining solutions 3 6 09-APR-2009 23:39:19 CALIB Deleted 52 records from SN table no. 2 3 3 09-APR-2009 23:39:19 CALIB Writing SN table 2 3 5 09-APR-2009 23:39:19 CALIB RPOL, IF= 1 The average gain over these antennas is 3.185E+00 3 5 09-APR-2009 23:39:19 CALIB RPOL, IF= 2 The average gain over these antennas is 3.211E+00 3 5 09-APR-2009 23:39:19 CALIB LPOL, IF= 1 The average gain over these antennas is 3.206E+00 3 5 09-APR-2009 23:39:19 CALIB LPOL, IF= 2 The average gain over these antennas is 3.238E+00 3 5 09-APR-2009 23:39:19 CALIB Found 206 good solutions 3 5 09-APR-2009 23:39:19 CALIB Failed on 2 solutions 3 4 09-APR-2009 23:39:19 CALIB Average closure rms = 0.0010 +- 0.0001 3 4 09-APR-2009 23:39:19 CALIB Fraction of times having data > 2.5 rms from solution 3 4 09-APR-2009 23:39:19 CALIB 0.50000 of the times had 0 - 2 percent outside 2.5 times rms 3 4 09-APR-2009 23:39:19 CALIB 0.50000 of the times had 2 - 4 percent outside 2.5 times rms 3 2 09-APR-2009 23:39:19 CALIB Adjusting solutions to a common reference antenna 3 3 09-APR-2009 23:39:19 CALIB Appears to have ended successfully 3 5 09-APR-2009 23:39:19 CALIB vlbacald-a 31DEC07 TST: Cpu= 5.9 Real= 6 3 2 09-APR-2009 23:39:19 AIPS Resumes 3 4 09-APR-2009 23:39:19 AIPS Destroyed 1 extension files of type CC 3 4 09-APR-2009 23:39:19 AIPS Destroyed 1 extension files of type HI 3 4 09-APR-2009 23:39:19 AIPS Destroyed MA image file: catno= 2 disk= 1 3 5 09-APR-2009 23:39:19 GETJY Task GETJY (release of 31DEC07) begins 3 6 09-APR-2009 23:39:19 GETJY Source:Qual CALCODE IF Flux (Jy) 3 6 09-APR-2009 23:39:19 GETJY 3C345 : 0 C 1 8.26083 +/- 0.07832 3 6 09-APR-2009 23:39:19 GETJY 2 8.27863 +/- 0.07780 3 3 09-APR-2009 23:39:19 GETJY Appears to have ended successfully 3 5 09-APR-2009 23:39:19 GETJY vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 09-APR-2009 23:39:19 AIPS Resumes 3 5 09-APR-2009 23:39:19 CLCAL Task CLCAL (release of 31DEC07) begins 3 4 09-APR-2009 23:39:19 CLCAL Using interpolation mode 2PT 3 3 09-APR-2009 23:39:20 CLCAL Processing SN table 2 3 5 09-APR-2009 23:39:20 CLCAL SNMRG: Merging SN table 3 5 09-APR-2009 23:39:20 CLCAL SNMRG: Write 78 merged records from 78 input records 3 4 09-APR-2009 23:39:20 CLCAL SN2CL: Applying SN tables to CL table 2, writing CL table 3 3 3 09-APR-2009 23:39:20 CLCAL Appears to have ended successfully 3 5 09-APR-2009 23:39:20 CLCAL vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 1 3 2 09-APR-2009 23:39:20 AIPS Resumes 3 5 09-APR-2009 23:39:20 CLCAL Task CLCAL (release of 31DEC07) begins 3 4 09-APR-2009 23:39:20 CLCAL Using interpolation mode SELF 3 6 09-APR-2009 23:39:20 CLCAL Deleted 1274 records from CL table no. 3 3 3 09-APR-2009 23:39:20 CLCAL Processing SN table 2 3 6 09-APR-2009 23:39:20 CLCAL WARNING: SN table 2 has already been applied 3 5 09-APR-2009 23:39:20 CLCAL SNMRG: Merging SN table 3 5 09-APR-2009 23:39:20 CLCAL SNMRG: Write 78 merged records from 78 input records 3 4 09-APR-2009 23:39:20 CLCAL SN2CL: Applying SN tables to CL table 2, writing CL table 3 3 3 09-APR-2009 23:39:20 CLCAL Appears to have ended successfully 3 5 09-APR-2009 23:39:20 CLCAL vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 09-APR-2009 23:39:20 AIPS Resumes 3 5 09-APR-2009 23:39:20 TASAV Task TASAV (release of 31DEC07) begins 3 2 09-APR-2009 23:39:20 TASAV Create 19870714 .TASAV . 1 (UV) on disk 1 cno 2 3 3 09-APR-2009 23:39:21 TASAV Copied AN file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:21 TASAV Copied NX file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:21 TASAV Copied SU file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:21 TASAV Copied FQ file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:21 TASAV Copied CL file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:21 TASAV Copied CL file from vol/cno/vers 1 1 2 to 1 2 2 3 3 09-APR-2009 23:39:21 TASAV Copied CL file from vol/cno/vers 1 1 3 to 1 2 3 3 3 09-APR-2009 23:39:22 TASAV Copied TY file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:22 TASAV Copied WX file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:23 TASAV Copied FG file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:23 TASAV Copied FG file from vol/cno/vers 1 1 2 to 1 2 2 3 3 09-APR-2009 23:39:23 TASAV Copied XX file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:23 TASAV Copied SN file from vol/cno/vers 1 1 1 to 1 2 1 3 3 09-APR-2009 23:39:23 TASAV Copied SN file from vol/cno/vers 1 1 2 to 1 2 2 3 3 09-APR-2009 23:39:24 TASAV Appears to have ended successfully 3 5 09-APR-2009 23:39:24 TASAV vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 4 3 2 09-APR-2009 23:39:24 AIPS Resumes 3 5 09-APR-2009 23:39:24 SPLIT Task SPLIT (release of 31DEC07) begins 3 2 09-APR-2009 23:39:24 SPLIT You are using a non-standard program 3 2 09-APR-2009 23:39:24 SPLIT Doing subarray 1 3 2 09-APR-2009 23:39:24 SPLIT Create 3C286 .L BAND. 1 (UV) on disk 1 cno 3 3 3 09-APR-2009 23:39:24 SPLIT Applying CL Table version 3 3 6 09-APR-2009 23:39:24 SPLIT Previously flagged flagged by gain kept 3 6 09-APR-2009 23:39:24 SPLIT Partially 602 125 602 3 6 09-APR-2009 23:39:24 SPLIT Fully 0 0 13398 3 3 09-APR-2009 23:39:25 SPLIT Copied AN file from vol/cno/vers 1 1 1 to 1 3 1 3 3 09-APR-2009 23:39:25 SPLIT Copied WX file from vol/cno/vers 1 1 1 to 1 3 1 3 3 09-APR-2009 23:39:25 SPLIT Copied XX file from vol/cno/vers 1 1 1 to 1 3 1 3 2 09-APR-2009 23:39:25 SPLIT Create 3C345 .L BAND. 1 (UV) on disk 1 cno 4 3 6 09-APR-2009 23:39:25 SPLIT Previously flagged flagged by gain kept 3 6 09-APR-2009 23:39:25 SPLIT Partially 766 0 766 3 6 09-APR-2009 23:39:25 SPLIT Fully 0 0 3230 3 3 09-APR-2009 23:39:26 SPLIT Copied AN file from vol/cno/vers 1 1 1 to 1 4 1 3 3 09-APR-2009 23:39:26 SPLIT Copied WX file from vol/cno/vers 1 1 1 to 1 4 1 3 3 09-APR-2009 23:39:26 SPLIT Copied XX file from vol/cno/vers 1 1 1 to 1 4 1 3 3 09-APR-2009 23:39:26 SPLIT Appears to have ended successfully 3 5 09-APR-2009 23:39:26 SPLIT vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 2 3 2 09-APR-2009 23:39:27 AIPS Resumes 3 5 09-APR-2009 23:39:27 AIPS ' ' 3 5 09-APR-2009 23:39:27 AIPS 'ESTIMATED RMS:' '0.06609 MILLI JANSKY' 3 3 09-APR-2009 23:39:27 AIPS SYSTEM command to be executed is: 3 3 09-APR-2009 23:39:27 AIPS rm -f /tmp/SETFC@3C286_L,BAND.0-1 >& /dev/null 3 2 09-APR-2009 23:39:27 AIPS Waiting for returned adverbs 3 5 09-APR-2009 23:39:27 SETFC Task SETFC (release of 31DEC07) begins 3 3 09-APR-2009 23:39:27 SETFC Found 3C286 .L BAND.00001 Disk 1 slot 3 3 4 09-APR-2009 23:39:27 SETFC SETCEL: max baseline, W = 1.7406E+05 4.6406E+04 wavelengths 3 4 09-APR-2009 23:39:27 SETFC SETCEL: max field radius 5.5281E+02 arc seconds 3 4 09-APR-2009 23:39:27 SETFC SETCEL: recommends IMSIZE 2799 CELLSIZE 0.395016 3 4 09-APR-2009 23:39:27 SETFC SETCEL: returns IMSIZE 4096 CELLSIZE 0.271253 3 2 09-APR-2009 23:39:27 SETFC ZTXOP2: using translated file name = 3 2 09-APR-2009 23:39:27 SETFC ZTXOP2: /tmp/SETFC@3C286_L,BAND.0-1 3 4 09-APR-2009 23:39:27 SETFC FLYEYE added 7 fields to BOXFILE to 0.265 deg 3 4 09-APR-2009 23:39:27 SETFC First field number written was 1 3 4 09-APR-2009 23:39:27 SETFC Highest field number written was 7 3 2 09-APR-2009 23:39:27 SETFC returns adverbs to AIPS 3 3 09-APR-2009 23:39:27 SETFC Appears to have ended successfully 3 5 09-APR-2009 23:39:27 SETFC vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 09-APR-2009 23:39:27 AIPS Resumes 3 3 09-APR-2009 23:39:27 AIPS SETFC was not found to be running 3 5 09-APR-2009 23:39:27 AIPS 'SEARCHING FOR NVSS SOURCES' 3 2 09-APR-2009 23:39:27 AIPS Waiting for returned adverbs 3 5 09-APR-2009 23:39:27 SETFC Task SETFC (release of 31DEC07) begins 3 3 09-APR-2009 23:39:27 SETFC Found 3C286 .L BAND.00001 Disk 1 slot 3 3 2 09-APR-2009 23:39:27 SETFC ZTXOP2: using translated file name = 3 2 09-APR-2009 23:39:27 SETFC ZTXOP2: /tmp/SETFC@3C286_L,BAND.0-1 3 3 09-APR-2009 23:39:27 SETFC Searching catalog between 0.26 and 0.77 degrees radius 3 2 09-APR-2009 23:39:27 SETFC ZTXOP2: using translated file name = 3 2 09-APR-2009 23:39:27 SETFC ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030 3 3 09-APR-2009 23:39:28 SETFC No NVSS sources selected for BOXFILE 3 3 09-APR-2009 23:39:28 SETFC The Sun is 78.9 deg away - ignoring 3 4 09-APR-2009 23:39:28 SETFC First field number written was 8 3 4 09-APR-2009 23:39:28 SETFC Highest field number written was 7 3 2 09-APR-2009 23:39:28 SETFC returns adverbs to AIPS 3 3 09-APR-2009 23:39:28 SETFC Appears to have ended successfully 3 5 09-APR-2009 23:39:28 SETFC vlbacald-a 31DEC07 TST: Cpu= 0.9 Real= 1 3 2 09-APR-2009 23:39:28 AIPS Resumes 3 3 09-APR-2009 23:39:28 AIPS SETFC was not found to be running 3 3 09-APR-2009 23:39:28 AIPS SYSTEM command to be executed is: 3 3 09-APR-2009 23:39:28 AIPS echo "SETFC FILE FOR SOURCE 3C286 BELOW IS:" >> $ARUN/AG0145_198 3 3 09-APR-2009 23:39:28 AIPS 7JUL14_1.3.log 3 3 09-APR-2009 23:39:28 AIPS SYSTEM command to be executed is: 3 3 09-APR-2009 23:39:28 AIPS cat /tmp/SETFC@3C286_L,BAND.0-1 >> $ARUN/AG0145_1987JUL14_1.3.lo 3 3 09-APR-2009 23:39:28 AIPS g 3 5 09-APR-2009 23:39:29 AIPS ' NOW STARTING WITH SOURCE :1 =3C286' 3 5 09-APR-2009 23:39:29 AIPS ' ' 3 5 09-APR-2009 23:39:29 IMAGR Task IMAGR (release of 31DEC07) begins 3 2 09-APR-2009 23:39:29 IMAGR ZTXOP2: using translated file name = 3 2 09-APR-2009 23:39:29 IMAGR ZTXOP2: /tmp/SETFC@3C286_L,BAND.0-1 3 3 09-APR-2009 23:39:29 IMAGR FIELDF: Final field parameters and # read are: 3 3 09-APR-2009 23:39:29 IMAGR Field 1 4084 4084 3.6763E-02 4.3783E-02 0 3 3 09-APR-2009 23:39:29 IMAGR Field 2 4084 4084 3.6763E-02 -9.5256E+02 0 3 3 09-APR-2009 23:39:29 IMAGR Field 3 4084 4084 -8.2382E+02 -4.7726E+02 0 3 3 09-APR-2009 23:39:29 IMAGR Field 4 4084 4084 8.2389E+02 -4.7726E+02 0 3 3 09-APR-2009 23:39:29 IMAGR Field 5 4084 4084 -8.2602E+02 4.7534E+02 0 3 3 09-APR-2009 23:39:29 IMAGR Field 6 4084 4084 8.2609E+02 4.7534E+02 0 3 3 09-APR-2009 23:39:29 IMAGR Field 7 4084 4084 3.6763E-02 9.5254E+02 0 3 2 09-APR-2009 23:39:29 IMAGR ZTXOP2: using translated file name = 3 2 09-APR-2009 23:39:29 IMAGR ZTXOP2: /tmp/SETFC@3C286_L,BAND.0-1 3 7 09-APR-2009 23:39:29 IMAGR WINDF: Number of clean boxes/field read as follows: 3 3 09-APR-2009 23:39:29 IMAGR Field 01: 1 Field 02: 1 Field 03: 1 Field 04: 1 3 3 09-APR-2009 23:39:29 IMAGR Field 05: 1 Field 06: 1 Field 07: 1 3 2 09-APR-2009 23:39:29 IMAGR Create 3C286 .IMAGR . 1 (UV) on disk 1 cno 5 3 4 09-APR-2009 23:39:29 IMAGR Beginning channel 1 through 1 with 2 IFs 3 3 09-APR-2009 23:39:29 IMAGR IMACPY: Copied 14000 visibilities to be imaged 3 2 09-APR-2009 23:39:30 IMAGR QINIT: did a GET of 20480 Kwords, OFF -91639117 3 2 09-APR-2009 23:39:30 IMAGR UVWAIT: begin finding uniform weights 3 2 09-APR-2009 23:39:30 IMAGR UVWAIT: Average grid weight 1.247E+04 3 2 09-APR-2009 23:39:30 IMAGR UVWAIT: Adding temperance S 2.494E+03 3 2 09-APR-2009 23:39:30 IMAGR UVWAIT: begin applying uniform or other weights 3 4 09-APR-2009 23:39:30 IMAGR UVWAIT: Sum of weights in 3.263E+07 and out 4.941E+07 3 4 09-APR-2009 23:39:30 IMAGR UVWAIT: Noise is increased by a factor 1.163 due to weighting 3 4 09-APR-2009 23:39:30 IMAGR UVWAIT: Average summed weight 1.247E+04 over 27926 vis 3 2 09-APR-2009 23:39:31 IMAGR Create 3C286 .IBM001. 1 (MA) on disk 1 cno 6 3 2 09-APR-2009 23:39:31 IMAGR Create 3C286 .IBM002. 1 (MA) on disk 1 cno 7 3 2 09-APR-2009 23:39:33 IMAGR Create 3C286 .IBM003. 1 (MA) on disk 1 cno 8 3 2 09-APR-2009 23:39:33 IMAGR Create 3C286 .IBM004. 1 (MA) on disk 1 cno 9 3 2 09-APR-2009 23:39:34 IMAGR Create 3C286 .IBM005. 1 (MA) on disk 1 cno 10 3 2 09-APR-2009 23:39:36 IMAGR Create 3C286 .IBM006. 1 (MA) on disk 1 cno 11 3 2 09-APR-2009 23:39:36 IMAGR Create 3C286 .IBM007. 1 (MA) on disk 1 cno 12 3 2 09-APR-2009 23:39:37 IMAGR Create 3C286 .ICL001. 1 (MA) on disk 1 cno 13 3 2 09-APR-2009 23:39:38 IMAGR Create 3C286 .ICL002. 1 (MA) on disk 1 cno 14 3 2 09-APR-2009 23:39:39 IMAGR Create 3C286 .ICL003. 1 (MA) on disk 1 cno 15 3 2 09-APR-2009 23:39:41 IMAGR Create 3C286 .ICL004. 1 (MA) on disk 1 cno 16 3 2 09-APR-2009 23:39:43 IMAGR Create 3C286 .ICL005. 1 (MA) on disk 1 cno 17 3 2 09-APR-2009 23:39:47 IMAGR Create 3C286 .ICL006. 1 (MA) on disk 1 cno 18 3 2 09-APR-2009 23:39:48 IMAGR Create 3C286 .ICL007. 1 (MA) on disk 1 cno 19 3 2 09-APR-2009 23:39:55 IMAGR GRDFLT: X and Y convolution type = SPHEROIDAL 3 2 09-APR-2009 23:39:55 IMAGR GRDFLT: X and Y parms = 3.0000 1.0000 3 2 09-APR-2009 23:39:55 IMAGR GRDFLT: convolution function sampled every 1/100 of a cell 3 2 09-APR-2009 23:39:55 IMAGR GRDMEM: Ave 2 Channels; 1.464900E+09 to 1.514900E+09 Hz 3 4 09-APR-2009 23:39:55 IMAGR Field 1 Sum of gridding weights = 5.24585E+08 3 4 09-APR-2009 23:39:56 IMAGR Field 1 Beam min = -99.5 MilliJy, max = 1.0 Jy 3 4 09-APR-2009 23:39:56 IMAGR Field 1 fit FWHM = 1.296 x 1.113 arcsec, PA= -47.8 3 4 09-APR-2009 23:39:56 IMAGR Field 2 Sum of gridding weights = 5.24585E+08 3 4 09-APR-2009 23:39:56 IMAGR Field 2 Beam min = -99.1 MilliJy, max = 1.0 Jy 3 4 09-APR-2009 23:39:56 IMAGR Field 2 fit FWHM = 1.295 x 1.114 arcsec, PA= -47.7 3 4 09-APR-2009 23:39:57 IMAGR Field 3 Sum of gridding weights = 5.24585E+08 3 4 09-APR-2009 23:39:57 IMAGR Field 3 Beam min = -101.0 MilliJy, max = 1.0 Jy 3 4 09-APR-2009 23:39:57 IMAGR Field 3 fit FWHM = 1.296 x 1.114 arcsec, PA= -48.1 3 4 09-APR-2009 23:39:57 IMAGR Field 4 Sum of gridding weights = 5.24585E+08 3 4 09-APR-2009 23:39:58 IMAGR Field 4 Beam min = -99.2 MilliJy, max = 1.0 Jy 3 4 09-APR-2009 23:39:58 IMAGR Field 4 fit FWHM = 1.295 x 1.113 arcsec, PA= -47.4 3 4 09-APR-2009 23:39:58 IMAGR Field 5 Sum of gridding weights = 5.24585E+08 3 4 09-APR-2009 23:40:00 IMAGR Field 5 Beam min = -102.2 MilliJy, max = 1.0 Jy 3 4 09-APR-2009 23:40:00 IMAGR Field 5 fit FWHM = 1.297 x 1.113 arcsec, PA= -48.2 3 4 09-APR-2009 23:40:01 IMAGR Field 6 Sum of gridding weights = 5.24585E+08 3 4 09-APR-2009 23:40:01 IMAGR Field 6 Beam min = -99.2 MilliJy, max = 1.0 Jy 3 4 09-APR-2009 23:40:01 IMAGR Field 6 fit FWHM = 1.296 x 1.112 arcsec, PA= -47.5 3 4 09-APR-2009 23:40:01 IMAGR Field 7 Sum of gridding weights = 5.24585E+08 3 4 09-APR-2009 23:40:02 IMAGR Field 7 Beam min = -101.0 MilliJy, max = 1.0 Jy 3 4 09-APR-2009 23:40:02 IMAGR Field 7 fit FWHM = 1.296 x 1.112 arcsec, PA= -47.9 3 4 09-APR-2009 23:40:02 IMAGR CLBHIS: minimum component 0.500 of current peak 3 2 09-APR-2009 23:40:02 IMAGR QINIT: did a FREE of 20480 Kwords, OFF -91639117 3 2 09-APR-2009 23:40:02 IMAGR QINIT: did a GET of 32996 Kwords, OFF -104455501 3 4 09-APR-2009 23:40:05 IMAGR Field 1 min = -1.4 Jy,max = 13.7 Jy 3 4 09-APR-2009 23:40:08 IMAGR Field 2 min = -1.0 Jy,max = 1.1 Jy 3 4 09-APR-2009 23:40:11 IMAGR Field 3 min = -810.5 MilliJy,max = 1.2 Jy 3 4 09-APR-2009 23:40:14 IMAGR Field 4 min = -806.3 MilliJy,max = 905.0 MilliJy 3 4 09-APR-2009 23:40:17 IMAGR Field 5 min = -806.4 MilliJy,max = 970.7 MilliJy 3 4 09-APR-2009 23:40:20 IMAGR Field 6 min = -814.6 MilliJy,max = 1.1 Jy 3 4 09-APR-2009 23:40:23 IMAGR Field 7 min = -1.0 Jy,max = 1.1 Jy 3 2 09-APR-2009 23:40:28 IMAGR BGC Clean: using 2035 cell beam + residuals > 935.06 MilliJy 3 2 09-APR-2009 23:40:28 IMAGR 12137 Residual map points loaded 3 4 09-APR-2009 23:40:28 IMAGR Field 1 min allowed flux = 6.539 Jy iter= 8 3 3 09-APR-2009 23:40:28 IMAGR Field 1 Clean flux density= 7.786 Jy 8 comps 3 3 09-APR-2009 23:40:28 IMAGR Total Cleaned flux density = 7.786 Jy 8 comps 3 4 09-APR-2009 23:40:28 IMAGR SETDO3: imaging done with multiple tangent planes 3 2 09-APR-2009 23:40:28 IMAGR VISDFT: Begin DFT component subtraction 3 2 09-APR-2009 23:40:28 IMAGR VISDFT: Model components of type Point 3 3 09-APR-2009 23:40:28 IMAGR I Polarization model processed 3 4 09-APR-2009 23:40:31 IMAGR Field 1 min = -601.5 MilliJy,max = 5.9 Jy 3 2 09-APR-2009 23:40:34 IMAGR BGC Clean: using 1833 cell beam + residuals > 633.63 MilliJy 3 2 09-APR-2009 23:40:34 IMAGR 1957 Residual map points loaded 3 4 09-APR-2009 23:40:34 IMAGR Field 1 min allowed flux = 2.815 Jy iter= 16 3 3 09-APR-2009 23:40:34 IMAGR Field 1 Clean flux density= 11.138 Jy 16 comps 3 3 09-APR-2009 23:40:34 IMAGR Total Cleaned flux density = 11.138 Jy 16 comps 3 2 09-APR-2009 23:40:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:40:34 IMAGR I Polarization model processed 3 4 09-APR-2009 23:40:37 IMAGR Field 1 min = -268.5 MilliJy,max = 2.6 Jy 3 2 09-APR-2009 23:40:40 IMAGR BGC Clean: using 663 cell beam + residuals > 591.32 MilliJy 3 2 09-APR-2009 23:40:40 IMAGR 129 Residual map points loaded 3 4 09-APR-2009 23:40:40 IMAGR Field 1 min allowed flux = 1.277 Jy iter= 24 3 3 09-APR-2009 23:40:40 IMAGR Field 1 Clean flux density= 12.622 Jy 24 comps 3 3 09-APR-2009 23:40:40 IMAGR Total Cleaned flux density = 12.622 Jy 24 comps 3 2 09-APR-2009 23:40:40 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:40:40 IMAGR I Polarization model processed 3 4 09-APR-2009 23:40:43 IMAGR Field 1 min = -125.4 MilliJy,max = 1.2 Jy 3 2 09-APR-2009 23:40:45 IMAGR BGC Clean: using 103 cell beam + residuals > 589.16 MilliJy 3 2 09-APR-2009 23:40:46 IMAGR 16 Residual map points loaded 3 4 09-APR-2009 23:40:46 IMAGR Field 1 min algorithm flux= 659.937 MilliJy iter= 31 3 3 09-APR-2009 23:40:46 IMAGR Field 1 Clean flux density= 13.249 Jy 31 comps 3 3 09-APR-2009 23:40:46 IMAGR Total Cleaned flux density = 13.249 Jy 31 comps 3 2 09-APR-2009 23:40:46 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:40:46 IMAGR I Polarization model processed 3 4 09-APR-2009 23:40:49 IMAGR Field 3 min = -35.9 MilliJy,max = 65.8 MilliJy 3 3 09-APR-2009 23:40:49 IMAGR TRY ANOTHER FIELD: this is 6.273E-02 < Second best 1.079E+00 3 4 09-APR-2009 23:40:52 IMAGR Field 6 min = -35.1 MilliJy,max = 60.0 MilliJy 3 3 09-APR-2009 23:40:52 IMAGR TRY ANOTHER FIELD: this is 5.727E-02 < Second best 1.001E+00 3 4 09-APR-2009 23:40:55 IMAGR Field 2 min = -48.3 MilliJy,max = 73.4 MilliJy 3 3 09-APR-2009 23:40:55 IMAGR TRY ANOTHER FIELD: this is 7.006E-02 < Second best 9.805E-01 3 4 09-APR-2009 23:40:58 IMAGR Field 7 min = -57.1 MilliJy,max = 70.4 MilliJy 3 3 09-APR-2009 23:40:58 IMAGR TRY ANOTHER FIELD: this is 6.718E-02 < Second best 8.118E-01 3 4 09-APR-2009 23:41:01 IMAGR Field 5 min = -35.6 MilliJy,max = 65.1 MilliJy 3 3 09-APR-2009 23:41:01 IMAGR TRY ANOTHER FIELD: this is 4.099E-02 < Second best 8.111E-01 3 4 09-APR-2009 23:41:04 IMAGR Field 4 min = -33.2 MilliJy,max = 51.2 MilliJy 3 3 09-APR-2009 23:41:04 IMAGR TRY ANOTHER FIELD: this is 4.479E-02 < Second best 6.273E-01 3 4 09-APR-2009 23:41:08 IMAGR Field 1 min = -79.4 MilliJy,max = 602.3 MilliJy 3 2 09-APR-2009 23:41:10 IMAGR BGC Clean: using 2033 cell beam + residuals > 49.24 MilliJy 3 2 09-APR-2009 23:41:11 IMAGR 14893 Residual map points loaded 3 4 09-APR-2009 23:41:11 IMAGR Field 1 min allowed flux = 283.450 MilliJy iter= 40 3 3 09-APR-2009 23:41:11 IMAGR Field 1 Clean flux density= 13.634 Jy 40 comps 3 3 09-APR-2009 23:41:11 IMAGR Total Cleaned flux density = 13.634 Jy 40 comps 3 2 09-APR-2009 23:41:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:41:11 IMAGR I Polarization model processed 3 4 09-APR-2009 23:41:14 IMAGR Field 1 min = -56.8 MilliJy,max = 261.1 MilliJy 3 2 09-APR-2009 23:41:16 IMAGR BGC Clean: using 963 cell beam + residuals > 37.17 MilliJy 3 2 09-APR-2009 23:41:16 IMAGR 5589 Residual map points loaded 3 4 09-APR-2009 23:41:16 IMAGR Field 1 min allowed flux = 127.963 MilliJy iter= 57 3 3 09-APR-2009 23:41:16 IMAGR Field 1 Clean flux density= 13.938 Jy 57 comps 3 3 09-APR-2009 23:41:16 IMAGR Total Cleaned flux density = 13.938 Jy 57 comps 3 2 09-APR-2009 23:41:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:41:16 IMAGR I Polarization model processed 3 4 09-APR-2009 23:41:20 IMAGR Field 1 min = -44.1 MilliJy,max = 127.4 MilliJy 3 2 09-APR-2009 23:41:22 IMAGR BGC Clean: using 137 cell beam + residuals > 37.14 MilliJy 3 2 09-APR-2009 23:41:22 IMAGR 648 Residual map points loaded 3 4 09-APR-2009 23:41:22 IMAGR Field 1 min allowed flux = 62.985 MilliJy iter= 84 3 3 09-APR-2009 23:41:22 IMAGR Field 1 Clean flux density= 14.170 Jy 84 comps 3 3 09-APR-2009 23:41:22 IMAGR Total Cleaned flux density = 14.170 Jy 84 comps 3 2 09-APR-2009 23:41:22 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:41:22 IMAGR I Polarization model processed 3 4 09-APR-2009 23:41:25 IMAGR Field 2 min = -21.7 MilliJy,max = 35.2 MilliJy 3 3 09-APR-2009 23:41:26 IMAGR TRY ANOTHER FIELD: this is 2.812E-02 < Second best 6.718E-02 3 4 09-APR-2009 23:41:29 IMAGR Field 7 min = -22.8 MilliJy,max = 27.8 MilliJy 3 3 09-APR-2009 23:41:29 IMAGR TRY ANOTHER FIELD: this is 2.652E-02 < Second best 6.273E-02 3 4 09-APR-2009 23:41:32 IMAGR Field 3 min = -22.3 MilliJy,max = 35.9 MilliJy 3 3 09-APR-2009 23:41:32 IMAGR TRY ANOTHER FIELD: this is 2.591E-02 < Second best 5.993E-02 3 4 09-APR-2009 23:41:35 IMAGR Field 1 min = -43.7 MilliJy,max = 58.7 MilliJy 3 2 09-APR-2009 23:41:37 IMAGR BGC Clean: using 103 cell beam + residuals > 25.48 MilliJy 3 2 09-APR-2009 23:41:38 IMAGR 370 Residual map points loaded 3 4 09-APR-2009 23:41:38 IMAGR Field 1 min algorithm flux= 34.214 MilliJy iter= 117 3 3 09-APR-2009 23:41:38 IMAGR Field 1 Clean flux density= 14.270 Jy 117 comps 3 3 09-APR-2009 23:41:38 IMAGR Total Cleaned flux density = 14.270 Jy 117 comps 3 2 09-APR-2009 23:41:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:41:38 IMAGR I Polarization model processed 3 4 09-APR-2009 23:41:41 IMAGR Field 6 min = -24.8 MilliJy,max = 30.2 MilliJy 3 3 09-APR-2009 23:41:41 IMAGR TRY ANOTHER FIELD: this is 2.477E-02 < Second best 4.479E-02 3 4 09-APR-2009 23:41:44 IMAGR Field 4 min = -22.2 MilliJy,max = 26.9 MilliJy 3 3 09-APR-2009 23:41:44 IMAGR TRY ANOTHER FIELD: this is 2.013E-02 < Second best 4.099E-02 3 4 09-APR-2009 23:41:47 IMAGR Field 5 min = -20.0 MilliJy,max = 26.5 MilliJy 3 3 09-APR-2009 23:41:47 IMAGR TRY ANOTHER FIELD: this is 2.421E-02 < Second best 3.260E-02 3 4 09-APR-2009 23:41:50 IMAGR Field 1 min = -34.0 MilliJy,max = 32.6 MilliJy 3 2 09-APR-2009 23:41:53 IMAGR BGC Clean: using 103 cell beam + residuals > 15.43 MilliJy 3 2 09-APR-2009 23:41:53 IMAGR 9443 Residual map points loaded 3 4 09-APR-2009 23:41:53 IMAGR Field 1 min algorithm flux= 23.828 MilliJy iter= 199 3 3 09-APR-2009 23:41:53 IMAGR Field 1 Clean flux density= 14.429 Jy 199 comps 3 3 09-APR-2009 23:41:53 IMAGR Total Cleaned flux density = 14.429 Jy 199 comps 3 2 09-APR-2009 23:41:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:41:54 IMAGR I Polarization model processed 3 4 09-APR-2009 23:41:58 IMAGR Field 2 min = -22.7 MilliJy,max = 21.4 MilliJy 3 3 09-APR-2009 23:41:58 IMAGR TRY ANOTHER FIELD: this is 2.168E-02 < Second best 2.652E-02 3 4 09-APR-2009 23:42:01 IMAGR Field 7 min = -23.6 MilliJy,max = 22.8 MilliJy 3 3 09-APR-2009 23:42:01 IMAGR TRY ANOTHER FIELD: this is 2.253E-02 < Second best 2.591E-02 3 4 09-APR-2009 23:42:04 IMAGR Field 3 min = -22.0 MilliJy,max = 23.4 MilliJy 3 3 09-APR-2009 23:42:04 IMAGR TRY ANOTHER FIELD: this is 2.241E-02 < Second best 2.477E-02 3 4 09-APR-2009 23:42:07 IMAGR Field 6 min = -24.3 MilliJy,max = 23.0 MilliJy 3 2 09-APR-2009 23:42:12 IMAGR BGC Clean: using 103 cell beam + residuals > 14.84 MilliJy 3 2 09-APR-2009 23:42:14 IMAGR 1728 Residual map points loaded 3 4 09-APR-2009 23:42:14 IMAGR Field 6 min algorithm flux= 18.572 MilliJy iter= 57 3 3 09-APR-2009 23:42:14 IMAGR Field 6 Clean flux density= 33.508 MilliJy 57 comps 3 3 09-APR-2009 23:42:14 IMAGR Total Cleaned flux density = 14.462 Jy 256 comps 3 2 09-APR-2009 23:42:14 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:42:14 IMAGR I Polarization model processed 3 4 09-APR-2009 23:42:18 IMAGR Field 5 min = -19.6 MilliJy,max = 25.3 MilliJy 3 3 09-APR-2009 23:42:18 IMAGR TRY ANOTHER FIELD: this is 2.065E-02 < Second best 2.275E-02 3 4 09-APR-2009 23:42:21 IMAGR Field 1 min = -24.7 MilliJy,max = 23.0 MilliJy 3 2 09-APR-2009 23:42:24 IMAGR BGC Clean: using 103 cell beam + residuals > 14.21 MilliJy 3 2 09-APR-2009 23:42:24 IMAGR 9041 Residual map points loaded 3 4 09-APR-2009 23:42:24 IMAGR Field 1 min algorithm flux= 19.691 MilliJy iter= 316 3 3 09-APR-2009 23:42:24 IMAGR Field 1 Clean flux density= 14.528 Jy 316 comps 3 3 09-APR-2009 23:42:24 IMAGR Total Cleaned flux density = 14.562 Jy 373 comps 3 2 09-APR-2009 23:42:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:42:24 IMAGR I Polarization model processed 3 4 09-APR-2009 23:42:28 IMAGR Field 7 min = -19.2 MilliJy,max = 20.0 MilliJy 3 3 09-APR-2009 23:42:28 IMAGR TRY ANOTHER FIELD: this is 1.909E-02 < Second best 2.241E-02 3 4 09-APR-2009 23:42:31 IMAGR Field 3 min = -21.7 MilliJy,max = 19.6 MilliJy 3 3 09-APR-2009 23:42:31 IMAGR TRY ANOTHER FIELD: this is 1.890E-02 < Second best 2.168E-02 3 4 09-APR-2009 23:42:34 IMAGR Field 2 min = -22.2 MilliJy,max = 20.7 MilliJy 3 2 09-APR-2009 23:42:37 IMAGR BGC Clean: using 103 cell beam + residuals > 13.94 MilliJy 3 2 09-APR-2009 23:42:40 IMAGR 1827 Residual map points loaded 3 4 09-APR-2009 23:42:40 IMAGR Field 2 min algorithm flux= -16.908 MilliJy iter= 85 3 3 09-APR-2009 23:42:40 IMAGR Field 2 Clean flux density= 29.865 MilliJy 85 comps 3 3 09-APR-2009 23:42:40 IMAGR Total Cleaned flux density = 14.592 Jy 458 comps 3 2 09-APR-2009 23:42:40 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:42:40 IMAGR I Polarization model processed 3 4 09-APR-2009 23:42:44 IMAGR Field 5 min = -18.8 MilliJy,max = 24.2 MilliJy 3 2 09-APR-2009 23:42:47 IMAGR BGC Clean: using 103 cell beam + residuals > 13.93 MilliJy 3 2 09-APR-2009 23:42:48 IMAGR 154 Residual map points loaded 3 4 09-APR-2009 23:42:48 IMAGR Field 5 min algorithm flux= -14.956 MilliJy iter= 35 3 3 09-APR-2009 23:42:48 IMAGR Field 5 Clean flux density= 8.470 MilliJy 35 comps 3 3 09-APR-2009 23:42:48 IMAGR Total Cleaned flux density = 14.600 Jy 493 comps 3 2 09-APR-2009 23:42:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:42:48 IMAGR I Polarization model processed 3 4 09-APR-2009 23:42:51 IMAGR Field 4 min = -18.8 MilliJy,max = 19.2 MilliJy 3 3 09-APR-2009 23:42:52 IMAGR TRY ANOTHER FIELD: this is 1.657E-02 < Second best 1.909E-02 3 4 09-APR-2009 23:42:55 IMAGR Field 7 min = -18.9 MilliJy,max = 20.0 MilliJy 3 2 09-APR-2009 23:43:00 IMAGR BGC Clean: using 103 cell beam + residuals > 13.87 MilliJy 3 2 09-APR-2009 23:43:03 IMAGR 1715 Residual map points loaded 3 4 09-APR-2009 23:43:03 IMAGR Field 7 min algorithm flux= -16.475 MilliJy iter= 102 3 3 09-APR-2009 23:43:03 IMAGR Field 7 Clean flux density= 38.186 MilliJy 102 comps 3 3 09-APR-2009 23:43:03 IMAGR Total Cleaned flux density = 14.638 Jy 595 comps 3 2 09-APR-2009 23:43:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:43:03 IMAGR I Polarization model processed 3 4 09-APR-2009 23:43:06 IMAGR Field 3 min = -20.4 MilliJy,max = 19.2 MilliJy 3 3 09-APR-2009 23:43:06 IMAGR TRY ANOTHER FIELD: this is 1.710E-02 < Second best 1.882E-02 3 4 09-APR-2009 23:43:09 IMAGR Field 1 min = -19.6 MilliJy,max = 18.9 MilliJy 3 2 09-APR-2009 23:43:15 IMAGR BGC Clean: using 103 cell beam + residuals > 13.20 MilliJy 3 2 09-APR-2009 23:43:16 IMAGR 6011 Residual map points loaded 3 4 09-APR-2009 23:43:16 IMAGR Field 1 min algorithm flux= -16.442 MilliJy iter= 481 3 3 09-APR-2009 23:43:16 IMAGR Field 1 Clean flux density= 14.628 Jy 481 comps 3 3 09-APR-2009 23:43:16 IMAGR Total Cleaned flux density = 14.738 Jy 760 comps 3 2 09-APR-2009 23:43:17 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:43:17 IMAGR I Polarization model processed 3 4 09-APR-2009 23:43:21 IMAGR Field 6 min = -17.9 MilliJy,max = 18.0 MilliJy 3 3 09-APR-2009 23:43:21 IMAGR TRY ANOTHER FIELD: this is 1.601E-02 < Second best 1.710E-02 3 4 09-APR-2009 23:43:24 IMAGR Field 3 min = -19.9 MilliJy,max = 18.4 MilliJy 3 2 09-APR-2009 23:43:29 IMAGR BGC Clean: using 103 cell beam + residuals > 12.83 MilliJy 3 2 09-APR-2009 23:43:31 IMAGR 1024 Residual map points loaded 3 4 09-APR-2009 23:43:31 IMAGR Field 3 min algorithm flux= -14.370 MilliJy iter= 96 3 3 09-APR-2009 23:43:31 IMAGR Field 3 Clean flux density= -36.293 MilliJy 96 comps 3 3 09-APR-2009 23:43:31 IMAGR Total Cleaned flux density = 14.702 Jy 856 comps 3 2 09-APR-2009 23:43:31 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:43:31 IMAGR I Polarization model processed 3 4 09-APR-2009 23:43:35 IMAGR Field 4 min = -17.2 MilliJy,max = 18.3 MilliJy 3 3 09-APR-2009 23:43:35 IMAGR TRY ANOTHER FIELD: this is 1.533E-02 < Second best 1.615E-02 3 4 09-APR-2009 23:43:39 IMAGR Field 2 min = -16.9 MilliJy,max = 16.8 MilliJy 3 2 09-APR-2009 23:43:41 IMAGR BGC Clean: using 103 cell beam + residuals > 12.58 MilliJy 3 2 09-APR-2009 23:43:43 IMAGR 1157 Residual map points loaded 3 4 09-APR-2009 23:43:43 IMAGR Field 2 min algorithm flux= 14.008 MilliJy iter= 187 3 3 09-APR-2009 23:43:43 IMAGR Field 2 Clean flux density= 35.090 MilliJy 187 comps 3 3 09-APR-2009 23:43:43 IMAGR Total Cleaned flux density = 14.707 Jy 958 comps 3 2 09-APR-2009 23:43:43 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:43:43 IMAGR I Polarization model processed 3 4 09-APR-2009 23:43:47 IMAGR Field 6 min = -17.3 MilliJy,max = 17.8 MilliJy 3 2 09-APR-2009 23:43:53 IMAGR BGC Clean: using 103 cell beam + residuals > 12.55 MilliJy 3 2 09-APR-2009 23:43:55 IMAGR 1222 Residual map points loaded 3 4 09-APR-2009 23:43:56 IMAGR Field 6 min algorithm flux= -14.022 MilliJy iter= 177 3 3 09-APR-2009 23:43:56 IMAGR Field 6 Clean flux density= 60.852 MilliJy 177 comps 3 3 09-APR-2009 23:43:56 IMAGR Total Cleaned flux density = 14.734 Jy 1078 comps 3 2 09-APR-2009 23:43:56 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:43:56 IMAGR I Polarization model processed 3 4 09-APR-2009 23:44:00 IMAGR Field 7 min = -15.6 MilliJy,max = 15.8 MilliJy 3 3 09-APR-2009 23:44:00 IMAGR TRY ANOTHER FIELD: this is 1.435E-02 < Second best 1.574E-02 3 4 09-APR-2009 23:44:03 IMAGR Field 1 min = -18.3 MilliJy,max = 17.3 MilliJy 3 2 09-APR-2009 23:44:08 IMAGR BGC Clean: using 103 cell beam + residuals > 11.69 MilliJy 3 2 09-APR-2009 23:44:11 IMAGR 5702 Residual map points loaded 3 4 09-APR-2009 23:44:11 IMAGR Field 1 min algorithm flux= 13.909 MilliJy iter= 703 3 3 09-APR-2009 23:44:11 IMAGR Field 1 Clean flux density= 14.703 Jy 703 comps 3 3 09-APR-2009 23:44:11 IMAGR Total Cleaned flux density = 14.809 Jy 1300 comps 3 2 09-APR-2009 23:44:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:44:11 IMAGR I Polarization model processed 3 4 09-APR-2009 23:44:16 IMAGR Field 4 min = -15.5 MilliJy,max = 16.1 MilliJy 3 2 09-APR-2009 23:44:21 IMAGR BGC Clean: using 103 cell beam + residuals > 11.67 MilliJy 3 2 09-APR-2009 23:44:23 IMAGR 298 Residual map points loaded 3 4 09-APR-2009 23:44:23 IMAGR Field 4 min algorithm flux= -12.313 MilliJy iter= 72 3 3 09-APR-2009 23:44:23 IMAGR Field 4 Clean flux density= 28.675 MilliJy 72 comps 3 3 09-APR-2009 23:44:23 IMAGR Total Cleaned flux density = 14.838 Jy 1372 comps 3 2 09-APR-2009 23:44:23 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:44:23 IMAGR I Polarization model processed 3 4 09-APR-2009 23:44:26 IMAGR Field 7 min = -15.2 MilliJy,max = 14.8 MilliJy 3 2 09-APR-2009 23:44:31 IMAGR BGC Clean: using 103 cell beam + residuals > 11.61 MilliJy 3 2 09-APR-2009 23:44:33 IMAGR 1152 Residual map points loaded 3 4 09-APR-2009 23:44:33 IMAGR Field 7 min algorithm flux= -12.730 MilliJy iter= 238 3 3 09-APR-2009 23:44:33 IMAGR Field 7 Clean flux density= 55.398 MilliJy 238 comps 3 3 09-APR-2009 23:44:33 IMAGR Total Cleaned flux density = 14.855 Jy 1508 comps 3 2 09-APR-2009 23:44:33 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:44:33 IMAGR I Polarization model processed 3 4 09-APR-2009 23:44:38 IMAGR Field 5 min = -16.1 MilliJy,max = 16.7 MilliJy 3 3 09-APR-2009 23:44:38 IMAGR TRY ANOTHER FIELD: this is 1.250E-02 < Second best 1.375E-02 3 4 09-APR-2009 23:44:41 IMAGR Field 3 min = -16.8 MilliJy,max = 17.0 MilliJy 3 2 09-APR-2009 23:44:44 IMAGR BGC Clean: using 103 cell beam + residuals > 11.32 MilliJy 3 2 09-APR-2009 23:44:45 IMAGR 733 Residual map points loaded 3 4 09-APR-2009 23:44:45 IMAGR Field 3 min algorithm flux= 12.145 MilliJy iter= 208 3 3 09-APR-2009 23:44:45 IMAGR Field 3 Clean flux density= -26.175 MilliJy 208 comps 3 3 09-APR-2009 23:44:45 IMAGR Total Cleaned flux density = 14.865 Jy 1620 comps 3 2 09-APR-2009 23:44:45 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:44:45 IMAGR I Polarization model processed 3 4 09-APR-2009 23:44:49 IMAGR Field 6 min = -15.7 MilliJy,max = 15.8 MilliJy 3 3 09-APR-2009 23:44:49 IMAGR TRY ANOTHER FIELD: this is 1.273E-02 < Second best 1.340E-02 3 4 09-APR-2009 23:44:52 IMAGR Field 2 min = -14.2 MilliJy,max = 14.6 MilliJy 3 3 09-APR-2009 23:44:52 IMAGR TRY ANOTHER FIELD: this is 1.235E-02 < Second best 1.332E-02 3 4 09-APR-2009 23:44:56 IMAGR Field 1 min = -16.3 MilliJy,max = 15.6 MilliJy 3 2 09-APR-2009 23:44:59 IMAGR BGC Clean: using 103 cell beam + residuals > 10.41 MilliJy 3 2 09-APR-2009 23:45:01 IMAGR 5552 Residual map points loaded 3 4 09-APR-2009 23:45:01 IMAGR Field 1 min algorithm flux= -11.966 MilliJy iter= 962 3 3 09-APR-2009 23:45:01 IMAGR Field 1 Clean flux density= 14.736 Jy 962 comps 3 3 09-APR-2009 23:45:01 IMAGR Total Cleaned flux density = 14.898 Jy 1879 comps 3 2 09-APR-2009 23:45:01 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:45:01 IMAGR I Polarization model processed 3 4 09-APR-2009 23:45:05 IMAGR Field 6 min = -14.9 MilliJy,max = 15.8 MilliJy 3 2 09-APR-2009 23:45:07 IMAGR BGC Clean: using 103 cell beam + residuals > 10.35 MilliJy 3 2 09-APR-2009 23:45:10 IMAGR 1359 Residual map points loaded 3 4 09-APR-2009 23:45:10 IMAGR Field 6 min algorithm flux= -11.241 MilliJy iter= 342 3 3 09-APR-2009 23:45:10 IMAGR Field 6 Clean flux density= 78.320 MilliJy 342 comps 3 3 09-APR-2009 23:45:10 IMAGR Total Cleaned flux density = 14.916 Jy 2044 comps 3 2 09-APR-2009 23:45:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:45:10 IMAGR I Polarization model processed 3 4 09-APR-2009 23:45:14 IMAGR Field 5 min = -15.0 MilliJy,max = 15.4 MilliJy 3 3 09-APR-2009 23:45:14 IMAGR TRY ANOTHER FIELD: this is 1.169E-02 < Second best 1.235E-02 3 4 09-APR-2009 23:45:17 IMAGR Field 2 min = -13.4 MilliJy,max = 13.5 MilliJy 3 2 09-APR-2009 23:45:21 IMAGR BGC Clean: using 103 cell beam + residuals > 10.28 MilliJy 3 2 09-APR-2009 23:45:26 IMAGR 984 Residual map points loaded 3 4 09-APR-2009 23:45:26 IMAGR Field 2 min algorithm flux= -11.020 MilliJy iter= 337 3 3 09-APR-2009 23:45:26 IMAGR Field 2 Clean flux density= 43.794 MilliJy 337 comps 3 3 09-APR-2009 23:45:26 IMAGR Total Cleaned flux density = 14.925 Jy 2194 comps 3 2 09-APR-2009 23:45:26 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:45:26 IMAGR I Polarization model processed 3 4 09-APR-2009 23:45:30 IMAGR Field 7 min = -14.0 MilliJy,max = 13.6 MilliJy 3 2 09-APR-2009 23:45:33 IMAGR BGC Clean: using 103 cell beam + residuals > 10.08 MilliJy 3 2 09-APR-2009 23:45:36 IMAGR 1011 Residual map points loaded 3 4 09-APR-2009 23:45:36 IMAGR Field 7 min algorithm flux= 10.762 MilliJy iter= 388 3 3 09-APR-2009 23:45:36 IMAGR Field 7 Clean flux density= 55.212 MilliJy 388 comps 3 3 09-APR-2009 23:45:36 IMAGR Total Cleaned flux density = 14.924 Jy 2344 comps 3 2 09-APR-2009 23:45:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:45:36 IMAGR I Polarization model processed 3 4 09-APR-2009 23:45:40 IMAGR Field 4 min = -13.2 MilliJy,max = 14.3 MilliJy 3 3 09-APR-2009 23:45:40 IMAGR TRY ANOTHER FIELD: this is 1.074E-02 < Second best 1.169E-02 3 4 09-APR-2009 23:45:43 IMAGR Field 5 min = -14.7 MilliJy,max = 14.6 MilliJy 3 2 09-APR-2009 23:45:48 IMAGR BGC Clean: using 103 cell beam + residuals > 9.99 MilliJy 3 2 09-APR-2009 23:45:51 IMAGR 261 Residual map points loaded 3 4 09-APR-2009 23:45:51 IMAGR Field 5 min algorithm flux= -10.376 MilliJy iter= 124 3 3 09-APR-2009 23:45:51 IMAGR Field 5 Clean flux density= 24.829 MilliJy 124 comps 3 3 09-APR-2009 23:45:51 IMAGR Total Cleaned flux density = 14.941 Jy 2433 comps 3 2 09-APR-2009 23:45:51 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:45:51 IMAGR I Polarization model processed 3 4 09-APR-2009 23:45:55 IMAGR Field 3 min = -15.7 MilliJy,max = 14.8 MilliJy 3 3 09-APR-2009 23:45:55 IMAGR TRY ANOTHER FIELD: this is 1.087E-02 < Second best 1.147E-02 3 4 09-APR-2009 23:46:00 IMAGR Field 1 min = -13.3 MilliJy,max = 13.1 MilliJy 3 2 09-APR-2009 23:46:03 IMAGR BGC Clean: using 103 cell beam + residuals > 9.37 MilliJy 3 2 09-APR-2009 23:46:05 IMAGR 3357 Residual map points loaded 3 4 09-APR-2009 23:46:06 IMAGR Field 1 min algorithm flux= -10.316 MilliJy iter= 1217 3 3 09-APR-2009 23:46:06 IMAGR Field 1 Clean flux density= 14.758 Jy 1217 comps 3 3 09-APR-2009 23:46:06 IMAGR Total Cleaned flux density = 14.963 Jy 2688 comps 3 2 09-APR-2009 23:46:06 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:46:06 IMAGR I Polarization model processed 3 4 09-APR-2009 23:46:10 IMAGR Field 3 min = -13.8 MilliJy,max = 14.3 MilliJy 3 2 09-APR-2009 23:46:13 IMAGR BGC Clean: using 103 cell beam + residuals > 9.33 MilliJy 3 2 09-APR-2009 23:46:15 IMAGR 1050 Residual map points loaded 3 4 09-APR-2009 23:46:15 IMAGR Field 3 min algorithm flux= -9.916 MilliJy iter= 379 3 3 09-APR-2009 23:46:15 IMAGR Field 3 Clean flux density= -16.937 MilliJy 379 comps 3 3 09-APR-2009 23:46:15 IMAGR Total Cleaned flux density = 14.972 Jy 2859 comps 3 2 09-APR-2009 23:46:15 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:46:15 IMAGR I Polarization model processed 3 4 09-APR-2009 23:46:19 IMAGR Field 6 min = -12.8 MilliJy,max = 13.5 MilliJy 3 3 09-APR-2009 23:46:19 IMAGR TRY ANOTHER FIELD: this is 1.008E-02 < Second best 1.074E-02 3 4 09-APR-2009 23:46:22 IMAGR Field 4 min = -12.7 MilliJy,max = 13.8 MilliJy 3 2 09-APR-2009 23:46:25 IMAGR BGC Clean: using 103 cell beam + residuals > 9.10 MilliJy 3 2 09-APR-2009 23:46:27 IMAGR 481 Residual map points loaded 3 4 09-APR-2009 23:46:27 IMAGR Field 4 min algorithm flux= -9.498 MilliJy iter= 196 3 3 09-APR-2009 23:46:27 IMAGR Field 4 Clean flux density= 34.753 MilliJy 196 comps 3 3 09-APR-2009 23:46:27 IMAGR Total Cleaned flux density = 14.978 Jy 2983 comps 3 2 09-APR-2009 23:46:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:46:27 IMAGR I Polarization model processed 3 4 09-APR-2009 23:46:31 IMAGR Field 2 min = -12.9 MilliJy,max = 12.1 MilliJy 3 3 09-APR-2009 23:46:31 IMAGR TRY ANOTHER FIELD: this is 9.808E-03 < Second best 1.031E-02 3 4 09-APR-2009 23:46:34 IMAGR Field 7 min = -13.1 MilliJy,max = 12.5 MilliJy 3 2 09-APR-2009 23:46:37 IMAGR BGC Clean: using 103 cell beam + residuals > 8.75 MilliJy 3 2 09-APR-2009 23:46:38 IMAGR 1299 Residual map points loaded 3 4 09-APR-2009 23:46:38 IMAGR Field 7 min algorithm flux= 9.302 MilliJy iter= 579 3 3 09-APR-2009 23:46:38 IMAGR Field 7 Clean flux density= 92.338 MilliJy 579 comps 3 3 09-APR-2009 23:46:38 IMAGR Total Cleaned flux density = 15.015 Jy 3174 comps 3 2 09-APR-2009 23:46:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:46:38 IMAGR I Polarization model processed 3 4 09-APR-2009 23:46:43 IMAGR Field 6 min = -12.6 MilliJy,max = 12.8 MilliJy 3 2 09-APR-2009 23:46:46 IMAGR BGC Clean: using 103 cell beam + residuals > 8.71 MilliJy 3 2 09-APR-2009 23:46:47 IMAGR 1215 Residual map points loaded 3 4 09-APR-2009 23:46:47 IMAGR Field 6 min algorithm flux= 9.260 MilliJy iter= 543 3 3 09-APR-2009 23:46:47 IMAGR Field 6 Clean flux density= 51.148 MilliJy 543 comps 3 3 09-APR-2009 23:46:47 IMAGR Total Cleaned flux density = 14.988 Jy 3375 comps 3 2 09-APR-2009 23:46:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:46:48 IMAGR I Polarization model processed 3 4 09-APR-2009 23:46:52 IMAGR Field 5 min = -12.9 MilliJy,max = 12.5 MilliJy 3 3 09-APR-2009 23:46:52 IMAGR TRY ANOTHER FIELD: this is 9.206E-03 < Second best 9.888E-03 3 4 09-APR-2009 23:46:57 IMAGR Field 1 min = -12.0 MilliJy,max = 11.8 MilliJy 3 2 09-APR-2009 23:46:59 IMAGR BGC Clean: using 103 cell beam + residuals > 8.33 MilliJy 3 2 09-APR-2009 23:47:01 IMAGR 2168 Residual map points loaded 3 4 09-APR-2009 23:47:01 IMAGR Field 1 min algorithm flux= 8.925 MilliJy iter= 1463 3 3 09-APR-2009 23:47:01 IMAGR Field 1 Clean flux density= 14.782 Jy 1463 comps 3 3 09-APR-2009 23:47:01 IMAGR Total Cleaned flux density = 15.012 Jy 3621 comps 3 2 09-APR-2009 23:47:01 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:47:01 IMAGR I Polarization model processed 3 4 09-APR-2009 23:47:05 IMAGR Field 2 min = -12.3 MilliJy,max = 12.1 MilliJy 3 2 09-APR-2009 23:47:08 IMAGR BGC Clean: using 103 cell beam + residuals > 8.28 MilliJy 3 2 09-APR-2009 23:47:10 IMAGR 1309 Residual map points loaded 3 4 09-APR-2009 23:47:10 IMAGR Field 2 min algorithm flux= -8.770 MilliJy iter= 552 3 3 09-APR-2009 23:47:10 IMAGR Field 2 Clean flux density= 35.798 MilliJy 552 comps 3 3 09-APR-2009 23:47:10 IMAGR Total Cleaned flux density = 15.004 Jy 3836 comps 3 2 09-APR-2009 23:47:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:47:10 IMAGR I Polarization model processed 3 4 09-APR-2009 23:47:14 IMAGR Field 3 min = -12.5 MilliJy,max = 12.4 MilliJy 3 2 09-APR-2009 23:47:17 IMAGR BGC Clean: using 103 cell beam + residuals > 8.10 MilliJy 3 2 09-APR-2009 23:47:18 IMAGR 934 Residual map points loaded 3 4 09-APR-2009 23:47:19 IMAGR Field 3 min algorithm flux= 8.479 MilliJy iter= 561 3 3 09-APR-2009 23:47:19 IMAGR Field 3 Clean flux density= -11.779 MilliJy 561 comps 3 3 09-APR-2009 23:47:19 IMAGR Total Cleaned flux density = 15.009 Jy 4018 comps 3 2 09-APR-2009 23:47:19 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:47:19 IMAGR I Polarization model processed 3 4 09-APR-2009 23:47:22 IMAGR Field 5 min = -12.1 MilliJy,max = 10.8 MilliJy 3 2 09-APR-2009 23:47:25 IMAGR BGC Clean: using 103 cell beam + residuals > 8.08 MilliJy 3 2 09-APR-2009 23:47:27 IMAGR 385 Residual map points loaded 3 4 09-APR-2009 23:47:27 IMAGR Field 5 min algorithm flux= -8.329 MilliJy iter= 246 3 3 09-APR-2009 23:47:27 IMAGR Field 5 Clean flux density= 45.209 MilliJy 246 comps 3 3 09-APR-2009 23:47:27 IMAGR Total Cleaned flux density = 15.030 Jy 4140 comps 3 2 09-APR-2009 23:47:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:47:27 IMAGR I Polarization model processed 3 4 09-APR-2009 23:47:31 IMAGR Field 4 min = -10.9 MilliJy,max = 12.9 MilliJy 3 2 09-APR-2009 23:47:34 IMAGR BGC Clean: using 103 cell beam + residuals > 7.98 MilliJy 3 2 09-APR-2009 23:47:35 IMAGR 212 Residual map points loaded 3 4 09-APR-2009 23:47:35 IMAGR Field 4 min algorithm flux= -8.148 MilliJy iter= 279 3 3 09-APR-2009 23:47:35 IMAGR Field 4 Clean flux density= 47.319 MilliJy 279 comps 3 3 09-APR-2009 23:47:35 IMAGR Total Cleaned flux density = 15.042 Jy 4223 comps 3 2 09-APR-2009 23:47:35 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:47:35 IMAGR I Polarization model processed 3 4 09-APR-2009 23:47:39 IMAGR Field 7 min = -11.4 MilliJy,max = 10.9 MilliJy 3 2 09-APR-2009 23:47:42 IMAGR BGC Clean: using 103 cell beam + residuals > 7.83 MilliJy 3 2 09-APR-2009 23:47:43 IMAGR 454 Residual map points loaded 3 4 09-APR-2009 23:47:43 IMAGR Field 7 min algorithm flux= -8.077 MilliJy iter= 713 3 3 09-APR-2009 23:47:43 IMAGR Field 7 Clean flux density= 92.569 MilliJy 713 comps 3 3 09-APR-2009 23:47:43 IMAGR Total Cleaned flux density = 15.042 Jy 4357 comps 3 2 09-APR-2009 23:47:43 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:47:43 IMAGR I Polarization model processed 3 4 09-APR-2009 23:47:47 IMAGR Field 6 min = -11.5 MilliJy,max = 11.2 MilliJy 3 2 09-APR-2009 23:47:50 IMAGR BGC Clean: using 103 cell beam + residuals > 7.64 MilliJy 3 2 09-APR-2009 23:47:52 IMAGR 855 Residual map points loaded 3 4 09-APR-2009 23:47:53 IMAGR Field 6 min algorithm flux= -7.946 MilliJy iter= 716 3 3 09-APR-2009 23:47:53 IMAGR Field 6 Clean flux density= 55.405 MilliJy 716 comps 3 3 09-APR-2009 23:47:53 IMAGR Total Cleaned flux density = 15.047 Jy 4530 comps 3 2 09-APR-2009 23:47:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:47:53 IMAGR I Polarization model processed 3 4 09-APR-2009 23:47:56 IMAGR Field 1 min = -10.9 MilliJy,max = 10.5 MilliJy 3 3 09-APR-2009 23:47:56 IMAGR TRY ANOTHER FIELD: this is 7.955E-03 < Second best 8.404E-03 3 4 09-APR-2009 23:47:59 IMAGR Field 2 min = -11.4 MilliJy,max = 11.5 MilliJy 3 2 09-APR-2009 23:48:03 IMAGR BGC Clean: using 103 cell beam + residuals > 7.26 MilliJy 3 2 09-APR-2009 23:48:03 IMAGR 1513 Residual map points loaded 3 4 09-APR-2009 23:48:03 IMAGR Field 2 min algorithm flux= 7.656 MilliJy iter= 798 3 3 09-APR-2009 23:48:03 IMAGR Field 2 Clean flux density= 50.099 MilliJy 798 comps 3 3 09-APR-2009 23:48:03 IMAGR Total Cleaned flux density = 15.061 Jy 4776 comps 3 2 09-APR-2009 23:48:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:48:03 IMAGR I Polarization model processed 3 4 09-APR-2009 23:48:07 IMAGR Field 3 min = -11.3 MilliJy,max = 10.6 MilliJy 3 2 09-APR-2009 23:48:10 IMAGR BGC Clean: using 103 cell beam + residuals > 7.13 MilliJy 3 2 09-APR-2009 23:48:11 IMAGR 1501 Residual map points loaded 3 4 09-APR-2009 23:48:11 IMAGR Field 3 min algorithm flux= -7.506 MilliJy iter= 812 3 3 09-APR-2009 23:48:11 IMAGR Field 3 Clean flux density= -6.198 MilliJy 812 comps 3 3 09-APR-2009 23:48:11 IMAGR Total Cleaned flux density = 15.067 Jy 5027 comps 3 2 09-APR-2009 23:48:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:48:11 IMAGR I Polarization model processed 3 4 09-APR-2009 23:48:15 IMAGR Field 5 min = -11.5 MilliJy,max = 9.8 MilliJy 3 2 09-APR-2009 23:48:17 IMAGR BGC Clean: using 103 cell beam + residuals > 7.07 MilliJy 3 2 09-APR-2009 23:48:18 IMAGR 631 Residual map points loaded 3 4 09-APR-2009 23:48:18 IMAGR Field 5 min algorithm flux= 7.324 MilliJy iter= 424 3 3 09-APR-2009 23:48:18 IMAGR Field 5 Clean flux density= 53.873 MilliJy 424 comps 3 3 09-APR-2009 23:48:18 IMAGR Total Cleaned flux density = 15.075 Jy 5205 comps 3 2 09-APR-2009 23:48:18 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:48:18 IMAGR I Polarization model processed 3 4 09-APR-2009 23:48:22 IMAGR Field 1 min = -10.3 MilliJy,max = 10.2 MilliJy 3 2 09-APR-2009 23:48:25 IMAGR BGC Clean: using 103 cell beam + residuals > 7.01 MilliJy 3 2 09-APR-2009 23:48:28 IMAGR 1023 Residual map points loaded 3 4 09-APR-2009 23:48:28 IMAGR Field 1 min algorithm flux= 7.322 MilliJy iter= 1692 3 3 09-APR-2009 23:48:28 IMAGR Field 1 Clean flux density= 14.808 Jy 1692 comps 3 3 09-APR-2009 23:48:28 IMAGR Total Cleaned flux density = 15.101 Jy 5434 comps 3 2 09-APR-2009 23:48:28 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:48:28 IMAGR I Polarization model processed 3 4 09-APR-2009 23:48:33 IMAGR Field 4 min = -9.8 MilliJy,max = 11.7 MilliJy 3 2 09-APR-2009 23:48:37 IMAGR BGC Clean: using 103 cell beam + residuals > 6.94 MilliJy 3 2 09-APR-2009 23:48:38 IMAGR 427 Residual map points loaded 3 4 09-APR-2009 23:48:38 IMAGR Field 4 min algorithm flux= 7.112 MilliJy iter= 411 3 3 09-APR-2009 23:48:38 IMAGR Field 4 Clean flux density= 50.110 MilliJy 411 comps 3 3 09-APR-2009 23:48:38 IMAGR Total Cleaned flux density = 15.104 Jy 5566 comps 3 2 09-APR-2009 23:48:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:48:38 IMAGR I Polarization model processed 3 4 09-APR-2009 23:48:42 IMAGR Field 7 min = -10.4 MilliJy,max = 9.7 MilliJy 3 2 09-APR-2009 23:48:45 IMAGR BGC Clean: using 103 cell beam + residuals > 6.82 MilliJy 3 2 09-APR-2009 23:48:46 IMAGR 603 Residual map points loaded 3 4 09-APR-2009 23:48:47 IMAGR Field 7 min algorithm flux= -7.027 MilliJy iter= 879 3 3 09-APR-2009 23:48:47 IMAGR Field 7 Clean flux density= 102.408 MilliJy 879 comps 3 3 09-APR-2009 23:48:47 IMAGR Total Cleaned flux density = 15.114 Jy 5732 comps 3 2 09-APR-2009 23:48:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:48:47 IMAGR I Polarization model processed 3 4 09-APR-2009 23:48:51 IMAGR Field 6 min = -9.6 MilliJy,max = 9.6 MilliJy 3 2 09-APR-2009 23:48:53 IMAGR BGC Clean: using 103 cell beam + residuals > 6.67 MilliJy 3 2 09-APR-2009 23:48:54 IMAGR 810 Residual map points loaded 3 4 09-APR-2009 23:48:54 IMAGR Field 6 min algorithm flux= -6.892 MilliJy iter= 906 3 3 09-APR-2009 23:48:54 IMAGR Field 6 Clean flux density= 42.922 MilliJy 906 comps 3 3 09-APR-2009 23:48:54 IMAGR Total Cleaned flux density = 15.102 Jy 5922 comps 3 2 09-APR-2009 23:48:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:48:54 IMAGR I Polarization model processed 3 4 09-APR-2009 23:49:00 IMAGR Field 2 min = -10.3 MilliJy,max = 9.8 MilliJy 3 2 09-APR-2009 23:49:02 IMAGR BGC Clean: using 103 cell beam + residuals > 6.53 MilliJy 3 2 09-APR-2009 23:49:03 IMAGR 583 Residual map points loaded 3 4 09-APR-2009 23:49:03 IMAGR Field 2 min algorithm flux= 6.708 MilliJy iter= 955 3 3 09-APR-2009 23:49:03 IMAGR Field 2 Clean flux density= 61.560 MilliJy 955 comps 3 3 09-APR-2009 23:49:03 IMAGR Total Cleaned flux density = 15.113 Jy 6079 comps 3 2 09-APR-2009 23:49:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:49:03 IMAGR I Polarization model processed 3 4 09-APR-2009 23:49:07 IMAGR Field 3 min = -9.8 MilliJy,max = 9.8 MilliJy 3 2 09-APR-2009 23:49:09 IMAGR BGC Clean: using 103 cell beam + residuals > 6.39 MilliJy 3 2 09-APR-2009 23:49:10 IMAGR 703 Residual map points loaded 3 4 09-APR-2009 23:49:10 IMAGR Field 3 min algorithm flux= -6.587 MilliJy iter= 992 3 3 09-APR-2009 23:49:10 IMAGR Field 3 Clean flux density= 1.780 MilliJy 992 comps 3 3 09-APR-2009 23:49:10 IMAGR Total Cleaned flux density = 15.121 Jy 6259 comps 3 2 09-APR-2009 23:49:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:49:10 IMAGR I Polarization model processed 3 4 09-APR-2009 23:49:15 IMAGR Field 5 min = -10.7 MilliJy,max = 8.8 MilliJy 3 2 09-APR-2009 23:49:17 IMAGR BGC Clean: using 103 cell beam + residuals > 6.32 MilliJy 3 2 09-APR-2009 23:49:19 IMAGR 428 Residual map points loaded 3 4 09-APR-2009 23:49:19 IMAGR Field 5 min algorithm flux= -6.455 MilliJy iter= 556 3 3 09-APR-2009 23:49:19 IMAGR Field 5 Clean flux density= 63.293 MilliJy 556 comps 3 3 09-APR-2009 23:49:19 IMAGR Total Cleaned flux density = 15.130 Jy 6391 comps 3 2 09-APR-2009 23:49:19 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:49:19 IMAGR I Polarization model processed 3 4 09-APR-2009 23:49:23 IMAGR Field 1 min = -9.0 MilliJy,max = 9.2 MilliJy 3 2 09-APR-2009 23:49:25 IMAGR BGC Clean: using 103 cell beam + residuals > 6.18 MilliJy 3 2 09-APR-2009 23:49:27 IMAGR 1019 Residual map points loaded 3 4 09-APR-2009 23:49:27 IMAGR Field 1 min algorithm flux= 6.397 MilliJy iter= 1915 3 3 09-APR-2009 23:49:27 IMAGR Field 1 Clean flux density= 14.831 Jy 1915 comps 3 3 09-APR-2009 23:49:27 IMAGR Total Cleaned flux density = 15.153 Jy 6614 comps 3 2 09-APR-2009 23:49:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:49:27 IMAGR I Polarization model processed 3 4 09-APR-2009 23:49:31 IMAGR Field 4 min = -8.6 MilliJy,max = 10.9 MilliJy 3 2 09-APR-2009 23:49:34 IMAGR BGC Clean: using 103 cell beam + residuals > 6.11 MilliJy 3 2 09-APR-2009 23:49:35 IMAGR 743 Residual map points loaded 3 4 09-APR-2009 23:49:35 IMAGR Field 4 min algorithm flux= 6.298 MilliJy iter= 615 3 3 09-APR-2009 23:49:35 IMAGR Field 4 Clean flux density= 56.330 MilliJy 615 comps 3 3 09-APR-2009 23:49:35 IMAGR Total Cleaned flux density = 15.159 Jy 6818 comps 3 2 09-APR-2009 23:49:35 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:49:35 IMAGR I Polarization model processed 3 4 09-APR-2009 23:49:39 IMAGR Field 7 min = -9.7 MilliJy,max = 9.1 MilliJy 3 2 09-APR-2009 23:49:43 IMAGR BGC Clean: using 103 cell beam + residuals > 6.01 MilliJy 3 2 09-APR-2009 23:49:44 IMAGR 970 Residual map points loaded 3 4 09-APR-2009 23:49:44 IMAGR Field 7 min algorithm flux= -6.213 MilliJy iter= 1109 3 3 09-APR-2009 23:49:44 IMAGR Field 7 Clean flux density= 93.306 MilliJy 1109 comps 3 3 09-APR-2009 23:49:44 IMAGR Total Cleaned flux density = 15.150 Jy 7048 comps 3 2 09-APR-2009 23:49:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:49:45 IMAGR I Polarization model processed 3 4 09-APR-2009 23:49:49 IMAGR Field 6 min = -8.6 MilliJy,max = 8.6 MilliJy 3 2 09-APR-2009 23:49:51 IMAGR BGC Clean: using 103 cell beam + residuals > 5.89 MilliJy 3 2 09-APR-2009 23:49:52 IMAGR 829 Residual map points loaded 3 4 09-APR-2009 23:49:52 IMAGR Field 6 min algorithm flux= 6.068 MilliJy iter= 1114 3 3 09-APR-2009 23:49:52 IMAGR Field 6 Clean flux density= 29.423 MilliJy 1114 comps 3 3 09-APR-2009 23:49:52 IMAGR Total Cleaned flux density = 15.137 Jy 7256 comps 3 2 09-APR-2009 23:49:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:49:54 IMAGR I Polarization model processed 3 4 09-APR-2009 23:49:58 IMAGR Field 2 min = -9.3 MilliJy,max = 8.9 MilliJy 3 2 09-APR-2009 23:50:01 IMAGR BGC Clean: using 103 cell beam + residuals > 5.80 MilliJy 3 2 09-APR-2009 23:50:02 IMAGR 722 Residual map points loaded 3 4 09-APR-2009 23:50:02 IMAGR Field 2 min algorithm flux= 5.962 MilliJy iter= 1151 3 3 09-APR-2009 23:50:02 IMAGR Field 2 Clean flux density= 74.633 MilliJy 1151 comps 3 3 09-APR-2009 23:50:02 IMAGR Total Cleaned flux density = 15.150 Jy 7452 comps 3 2 09-APR-2009 23:50:02 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:50:02 IMAGR I Polarization model processed 3 4 09-APR-2009 23:50:07 IMAGR Field 3 min = -8.7 MilliJy,max = 8.8 MilliJy 3 2 09-APR-2009 23:50:10 IMAGR BGC Clean: using 103 cell beam + residuals > 5.70 MilliJy 3 2 09-APR-2009 23:50:11 IMAGR 708 Residual map points loaded 3 4 09-APR-2009 23:50:11 IMAGR Field 3 min algorithm flux= -5.846 MilliJy iter= 1181 3 3 09-APR-2009 23:50:11 IMAGR Field 3 Clean flux density= -2.360 MilliJy 1181 comps 3 3 09-APR-2009 23:50:11 IMAGR Total Cleaned flux density = 15.146 Jy 7641 comps 3 2 09-APR-2009 23:50:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:50:11 IMAGR I Polarization model processed 3 4 09-APR-2009 23:50:15 IMAGR Field 5 min = -9.6 MilliJy,max = 8.2 MilliJy 3 2 09-APR-2009 23:50:19 IMAGR BGC Clean: using 103 cell beam + residuals > 5.64 MilliJy 3 2 09-APR-2009 23:50:19 IMAGR 448 Residual map points loaded 3 4 09-APR-2009 23:50:20 IMAGR Field 5 min algorithm flux= 5.754 MilliJy iter= 711 3 3 09-APR-2009 23:50:20 IMAGR Field 5 Clean flux density= 83.652 MilliJy 711 comps 3 3 09-APR-2009 23:50:20 IMAGR Total Cleaned flux density = 15.166 Jy 7796 comps 3 2 09-APR-2009 23:50:20 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:50:20 IMAGR I Polarization model processed 3 4 09-APR-2009 23:50:25 IMAGR Field 1 min = -8.1 MilliJy,max = 8.0 MilliJy 3 2 09-APR-2009 23:50:30 IMAGR BGC Clean: using 103 cell beam + residuals > 5.52 MilliJy 3 2 09-APR-2009 23:50:32 IMAGR 528 Residual map points loaded 3 4 09-APR-2009 23:50:32 IMAGR Field 1 min algorithm flux= 5.648 MilliJy iter= 2087 3 3 09-APR-2009 23:50:32 IMAGR Field 1 Clean flux density= 14.847 Jy 2087 comps 3 3 09-APR-2009 23:50:32 IMAGR Total Cleaned flux density = 15.182 Jy 7968 comps 3 2 09-APR-2009 23:50:32 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:50:32 IMAGR I Polarization model processed 3 4 09-APR-2009 23:50:39 IMAGR Field 4 min = -8.4 MilliJy,max = 10.1 MilliJy 3 3 09-APR-2009 23:50:39 IMAGR TRY ANOTHER FIELD: this is 5.672E-03 < Second best 5.958E-03 3 4 09-APR-2009 23:50:44 IMAGR Field 7 min = -8.7 MilliJy,max = 8.4 MilliJy 3 2 09-APR-2009 23:50:46 IMAGR BGC Clean: using 103 cell beam + residuals > 5.35 MilliJy 3 2 09-APR-2009 23:50:49 IMAGR 1023 Residual map points loaded 3 4 09-APR-2009 23:50:49 IMAGR Field 7 min algorithm flux= -5.519 MilliJy iter= 1358 3 3 09-APR-2009 23:50:49 IMAGR Field 7 Clean flux density= 90.614 MilliJy 1358 comps 3 3 09-APR-2009 23:50:49 IMAGR Total Cleaned flux density = 15.179 Jy 8217 comps 3 2 09-APR-2009 23:50:49 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:50:49 IMAGR I Polarization model processed 3 4 09-APR-2009 23:50:54 IMAGR Field 6 min = -7.8 MilliJy,max = 8.0 MilliJy 3 2 09-APR-2009 23:50:57 IMAGR BGC Clean: using 103 cell beam + residuals > 5.26 MilliJy 3 2 09-APR-2009 23:51:00 IMAGR 1079 Residual map points loaded 3 4 09-APR-2009 23:51:00 IMAGR Field 6 min algorithm flux= 5.427 MilliJy iter= 1376 3 3 09-APR-2009 23:51:00 IMAGR Field 6 Clean flux density= 31.561 MilliJy 1376 comps 3 3 09-APR-2009 23:51:00 IMAGR Total Cleaned flux density = 15.182 Jy 8479 comps 3 2 09-APR-2009 23:51:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:51:00 IMAGR I Polarization model processed 3 4 09-APR-2009 23:51:05 IMAGR Field 2 min = -8.2 MilliJy,max = 8.4 MilliJy 3 2 09-APR-2009 23:51:07 IMAGR BGC Clean: using 103 cell beam + residuals > 5.18 MilliJy 3 2 09-APR-2009 23:51:10 IMAGR 1238 Residual map points loaded 3 4 09-APR-2009 23:51:10 IMAGR Field 2 min algorithm flux= 5.360 MilliJy iter= 1437 3 3 09-APR-2009 23:51:10 IMAGR Field 2 Clean flux density= 67.998 MilliJy 1437 comps 3 3 09-APR-2009 23:51:10 IMAGR Total Cleaned flux density = 15.175 Jy 8765 comps 3 2 09-APR-2009 23:51:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:51:10 IMAGR I Polarization model processed 3 4 09-APR-2009 23:51:15 IMAGR Field 4 min = -7.5 MilliJy,max = 9.7 MilliJy 3 2 09-APR-2009 23:51:18 IMAGR BGC Clean: using 103 cell beam + residuals > 5.16 MilliJy 3 2 09-APR-2009 23:51:21 IMAGR 660 Residual map points loaded 3 4 09-APR-2009 23:51:21 IMAGR Field 4 min algorithm flux= -5.298 MilliJy iter= 842 3 3 09-APR-2009 23:51:21 IMAGR Field 4 Clean flux density= 57.890 MilliJy 842 comps 3 3 09-APR-2009 23:51:21 IMAGR Total Cleaned flux density = 15.176 Jy 8992 comps 3 2 09-APR-2009 23:51:21 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:51:21 IMAGR I Polarization model processed 3 4 09-APR-2009 23:51:26 IMAGR Field 3 min = -7.9 MilliJy,max = 8.1 MilliJy 3 2 09-APR-2009 23:51:29 IMAGR BGC Clean: using 103 cell beam + residuals > 5.07 MilliJy 3 2 09-APR-2009 23:51:31 IMAGR 678 Residual map points loaded 3 4 09-APR-2009 23:51:31 IMAGR Field 3 min algorithm flux= 5.183 MilliJy iter= 1382 3 3 09-APR-2009 23:51:31 IMAGR Field 3 Clean flux density= -11.179 MilliJy 1382 comps 3 3 09-APR-2009 23:51:31 IMAGR Total Cleaned flux density = 15.168 Jy 9193 comps 3 2 09-APR-2009 23:51:31 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:51:31 IMAGR I Polarization model processed 3 4 09-APR-2009 23:51:36 IMAGR Field 5 min = -8.8 MilliJy,max = 7.6 MilliJy 3 2 09-APR-2009 23:51:38 IMAGR BGC Clean: using 103 cell beam + residuals > 5.00 MilliJy 3 2 09-APR-2009 23:51:41 IMAGR 495 Residual map points loaded 3 4 09-APR-2009 23:51:42 IMAGR Field 5 min algorithm flux= -5.101 MilliJy iter= 889 3 3 09-APR-2009 23:51:42 IMAGR Field 5 Clean flux density= 90.895 MilliJy 889 comps 3 3 09-APR-2009 23:51:42 IMAGR Total Cleaned flux density = 15.175 Jy 9371 comps 3 2 09-APR-2009 23:51:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:51:42 IMAGR I Polarization model processed 3 4 09-APR-2009 23:51:46 IMAGR Field 1 min = -7.2 MilliJy,max = 7.3 MilliJy 3 2 09-APR-2009 23:51:49 IMAGR BGC Clean: using 103 cell beam + residuals > 4.92 MilliJy 3 2 09-APR-2009 23:51:52 IMAGR 368 Residual map points loaded 3 4 09-APR-2009 23:51:52 IMAGR Field 1 min algorithm flux= 4.995 MilliJy iter= 2234 3 3 09-APR-2009 23:51:52 IMAGR Field 1 Clean flux density= 14.874 Jy 2234 comps 3 3 09-APR-2009 23:51:52 IMAGR Total Cleaned flux density = 15.202 Jy 9518 comps 3 2 09-APR-2009 23:51:52 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:51:52 IMAGR I Polarization model processed 3 4 09-APR-2009 23:51:56 IMAGR Field 7 min = -7.9 MilliJy,max = 7.8 MilliJy 3 2 09-APR-2009 23:52:00 IMAGR BGC Clean: using 103 cell beam + residuals > 4.83 MilliJy 3 2 09-APR-2009 23:52:02 IMAGR 512 Residual map points loaded 3 4 09-APR-2009 23:52:02 IMAGR Field 7 min algorithm flux= -4.929 MilliJy iter= 1541 3 3 09-APR-2009 23:52:02 IMAGR Field 7 Clean flux density= 97.179 MilliJy 1541 comps 3 3 09-APR-2009 23:52:02 IMAGR Total Cleaned flux density = 15.208 Jy 9701 comps 3 2 09-APR-2009 23:52:02 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:52:02 IMAGR I Polarization model processed 3 4 09-APR-2009 23:52:06 IMAGR Field 6 min = -7.1 MilliJy,max = 7.5 MilliJy 3 2 09-APR-2009 23:52:09 IMAGR BGC Clean: using 103 cell beam + residuals > 4.75 MilliJy 3 2 09-APR-2009 23:52:11 IMAGR 555 Residual map points loaded 3 4 09-APR-2009 23:52:11 IMAGR Field 6 min algorithm flux= 4.840 MilliJy iter= 1559 3 3 09-APR-2009 23:52:11 IMAGR Field 6 Clean flux density= 34.145 MilliJy 1559 comps 3 3 09-APR-2009 23:52:11 IMAGR Total Cleaned flux density = 15.211 Jy 9884 comps 3 2 09-APR-2009 23:52:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:52:11 IMAGR I Polarization model processed 3 4 09-APR-2009 23:52:15 IMAGR Field 2 min = -7.4 MilliJy,max = 7.4 MilliJy 3 2 09-APR-2009 23:52:17 IMAGR BGC Clean: using 103 cell beam + residuals > 4.65 MilliJy 3 2 09-APR-2009 23:52:19 IMAGR 755 Residual map points loaded 3 4 09-APR-2009 23:52:19 IMAGR Field 2 min algorithm flux= -4.765 MilliJy iter= 1665 3 3 09-APR-2009 23:52:19 IMAGR Field 2 Clean flux density= 76.942 MilliJy 1665 comps 3 3 09-APR-2009 23:52:21 IMAGR Total Cleaned flux density = 15.220 Jy 10112 comps 3 2 09-APR-2009 23:52:21 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:52:21 IMAGR I Polarization model processed 3 4 09-APR-2009 23:52:26 IMAGR Field 4 min = -7.1 MilliJy,max = 9.2 MilliJy 3 2 09-APR-2009 23:52:28 IMAGR BGC Clean: using 103 cell beam + residuals > 4.59 MilliJy 3 2 09-APR-2009 23:52:29 IMAGR 783 Residual map points loaded 3 4 09-APR-2009 23:52:29 IMAGR Field 4 min algorithm flux= 4.698 MilliJy iter= 1081 3 3 09-APR-2009 23:52:29 IMAGR Field 4 Clean flux density= 64.215 MilliJy 1081 comps 3 3 09-APR-2009 23:52:29 IMAGR Total Cleaned flux density = 15.226 Jy 10351 comps 3 2 09-APR-2009 23:52:29 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:52:29 IMAGR I Polarization model processed 3 4 09-APR-2009 23:52:34 IMAGR Field 3 min = -7.3 MilliJy,max = 7.2 MilliJy 3 2 09-APR-2009 23:52:36 IMAGR BGC Clean: using 103 cell beam + residuals > 4.51 MilliJy 3 2 09-APR-2009 23:52:38 IMAGR 1003 Residual map points loaded 3 4 09-APR-2009 23:52:38 IMAGR Field 3 min algorithm flux= -4.639 MilliJy iter= 1663 3 3 09-APR-2009 23:52:38 IMAGR Field 3 Clean flux density= -5.120 MilliJy 1663 comps 3 3 09-APR-2009 23:52:38 IMAGR Total Cleaned flux density = 15.232 Jy 10632 comps 3 2 09-APR-2009 23:52:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:52:38 IMAGR I Polarization model processed 3 4 09-APR-2009 23:52:42 IMAGR Field 5 min = -7.9 MilliJy,max = 6.8 MilliJy 3 2 09-APR-2009 23:52:45 IMAGR BGC Clean: using 103 cell beam + residuals > 4.45 MilliJy 3 2 09-APR-2009 23:52:47 IMAGR 742 Residual map points loaded 3 4 09-APR-2009 23:52:47 IMAGR Field 5 min algorithm flux= -4.559 MilliJy iter= 1132 3 3 09-APR-2009 23:52:47 IMAGR Field 5 Clean flux density= 88.594 MilliJy 1132 comps 3 3 09-APR-2009 23:52:47 IMAGR Total Cleaned flux density = 15.230 Jy 10875 comps 3 2 09-APR-2009 23:52:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:52:47 IMAGR I Polarization model processed 3 4 09-APR-2009 23:52:51 IMAGR Field 1 min = -6.6 MilliJy,max = 6.8 MilliJy 3 2 09-APR-2009 23:52:54 IMAGR BGC Clean: using 103 cell beam + residuals > 4.39 MilliJy 3 2 09-APR-2009 23:52:56 IMAGR 328 Residual map points loaded 3 4 09-APR-2009 23:52:56 IMAGR Field 1 min algorithm flux= -4.454 MilliJy iter= 2380 3 3 09-APR-2009 23:52:56 IMAGR Field 1 Clean flux density= 14.878 Jy 2380 comps 3 3 09-APR-2009 23:52:56 IMAGR Total Cleaned flux density = 15.234 Jy 11021 comps 3 2 09-APR-2009 23:52:56 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:52:56 IMAGR I Polarization model processed 3 4 09-APR-2009 23:52:59 IMAGR Field 7 min = -7.2 MilliJy,max = 7.2 MilliJy 3 2 09-APR-2009 23:53:02 IMAGR BGC Clean: using 103 cell beam + residuals > 4.33 MilliJy 3 2 09-APR-2009 23:53:03 IMAGR 677 Residual map points loaded 3 4 09-APR-2009 23:53:03 IMAGR Field 7 min algorithm flux= 4.420 MilliJy iter= 1771 3 3 09-APR-2009 23:53:03 IMAGR Field 7 Clean flux density= 111.653 MilliJy 1771 comps 3 3 09-APR-2009 23:53:03 IMAGR Total Cleaned flux density = 15.249 Jy 11251 comps 3 2 09-APR-2009 23:53:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:53:03 IMAGR I Polarization model processed 3 4 09-APR-2009 23:53:07 IMAGR Field 6 min = -6.2 MilliJy,max = 6.9 MilliJy 3 2 09-APR-2009 23:53:10 IMAGR BGC Clean: using 103 cell beam + residuals > 4.26 MilliJy 3 2 09-APR-2009 23:53:12 IMAGR 621 Residual map points loaded 3 4 09-APR-2009 23:53:13 IMAGR Field 6 min algorithm flux= 4.343 MilliJy iter= 1765 3 3 09-APR-2009 23:53:13 IMAGR Field 6 Clean flux density= 33.129 MilliJy 1765 comps 3 3 09-APR-2009 23:53:13 IMAGR Total Cleaned flux density = 15.248 Jy 11457 comps 3 2 09-APR-2009 23:53:14 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:53:14 IMAGR I Polarization model processed 3 4 09-APR-2009 23:53:18 IMAGR Field 2 min = -6.6 MilliJy,max = 6.5 MilliJy 3 2 09-APR-2009 23:53:21 IMAGR BGC Clean: using 103 cell beam + residuals > 4.19 MilliJy 3 2 09-APR-2009 23:53:24 IMAGR 571 Residual map points loaded 3 4 09-APR-2009 23:53:24 IMAGR Field 2 min algorithm flux= 4.268 MilliJy iter= 1869 3 3 09-APR-2009 23:53:24 IMAGR Field 2 Clean flux density= 86.524 MilliJy 1869 comps 3 3 09-APR-2009 23:53:24 IMAGR Total Cleaned flux density = 15.257 Jy 11661 comps 3 2 09-APR-2009 23:53:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:53:24 IMAGR I Polarization model processed 3 4 09-APR-2009 23:53:31 IMAGR Field 4 min = -6.6 MilliJy,max = 8.7 MilliJy 3 2 09-APR-2009 23:53:34 IMAGR BGC Clean: using 103 cell beam + residuals > 4.13 MilliJy 3 2 09-APR-2009 23:53:35 IMAGR 607 Residual map points loaded 3 4 09-APR-2009 23:53:35 IMAGR Field 4 min algorithm flux= 4.215 MilliJy iter= 1311 3 3 09-APR-2009 23:53:35 IMAGR Field 4 Clean flux density= 59.127 MilliJy 1311 comps 3 3 09-APR-2009 23:53:35 IMAGR Total Cleaned flux density = 15.252 Jy 11891 comps 3 2 09-APR-2009 23:53:35 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:53:35 IMAGR I Polarization model processed 3 4 09-APR-2009 23:53:40 IMAGR Field 3 min = -6.6 MilliJy,max = 6.4 MilliJy 3 2 09-APR-2009 23:53:43 IMAGR BGC Clean: using 103 cell beam + residuals > 4.06 MilliJy 3 2 09-APR-2009 23:53:44 IMAGR 671 Residual map points loaded 3 4 09-APR-2009 23:53:44 IMAGR Field 3 min algorithm flux= 4.138 MilliJy iter= 1899 3 3 09-APR-2009 23:53:44 IMAGR Field 3 Clean flux density= -6.888 MilliJy 1899 comps 3 3 09-APR-2009 23:53:44 IMAGR Total Cleaned flux density = 15.250 Jy 12127 comps 3 2 09-APR-2009 23:53:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:53:44 IMAGR I Polarization model processed 3 4 09-APR-2009 23:53:48 IMAGR Field 5 min = -7.2 MilliJy,max = 6.3 MilliJy 3 2 09-APR-2009 23:53:51 IMAGR BGC Clean: using 103 cell beam + residuals > 3.99 MilliJy 3 2 09-APR-2009 23:53:53 IMAGR 631 Residual map points loaded 3 4 09-APR-2009 23:53:53 IMAGR Field 5 min algorithm flux= -4.072 MilliJy iter= 1363 3 3 09-APR-2009 23:53:53 IMAGR Field 5 Clean flux density= 91.561 MilliJy 1363 comps 3 3 09-APR-2009 23:53:53 IMAGR Total Cleaned flux density = 15.253 Jy 12358 comps 3 2 09-APR-2009 23:53:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:53:53 IMAGR I Polarization model processed 3 4 09-APR-2009 23:53:58 IMAGR Field 1 min = -6.3 MilliJy,max = 6.2 MilliJy 3 2 09-APR-2009 23:54:00 IMAGR BGC Clean: using 103 cell beam + residuals > 3.94 MilliJy 3 2 09-APR-2009 23:54:03 IMAGR 327 Residual map points loaded 3 4 09-APR-2009 23:54:03 IMAGR Field 1 min algorithm flux= 3.995 MilliJy iter= 2529 3 3 09-APR-2009 23:54:03 IMAGR Field 1 Clean flux density= 14.874 Jy 2529 comps 3 3 09-APR-2009 23:54:03 IMAGR Total Cleaned flux density = 15.249 Jy 12507 comps 3 2 09-APR-2009 23:54:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:54:03 IMAGR I Polarization model processed 3 4 09-APR-2009 23:54:07 IMAGR Field 7 min = -6.7 MilliJy,max = 6.5 MilliJy 3 2 09-APR-2009 23:54:09 IMAGR BGC Clean: using 103 cell beam + residuals > 3.88 MilliJy 3 2 09-APR-2009 23:54:11 IMAGR 760 Residual map points loaded 3 4 09-APR-2009 23:54:11 IMAGR Field 7 min algorithm flux= 3.960 MilliJy iter= 2013 3 3 09-APR-2009 23:54:11 IMAGR Field 7 Clean flux density= 118.077 MilliJy 2013 comps 3 3 09-APR-2009 23:54:11 IMAGR Total Cleaned flux density = 15.255 Jy 12749 comps 3 2 09-APR-2009 23:54:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:54:11 IMAGR I Polarization model processed 3 4 09-APR-2009 23:54:15 IMAGR Field 6 min = -5.7 MilliJy,max = 6.5 MilliJy 3 2 09-APR-2009 23:54:18 IMAGR BGC Clean: using 103 cell beam + residuals > 3.82 MilliJy 3 2 09-APR-2009 23:54:19 IMAGR 763 Residual map points loaded 3 4 09-APR-2009 23:54:19 IMAGR Field 6 min algorithm flux= -3.898 MilliJy iter= 2018 3 3 09-APR-2009 23:54:19 IMAGR Field 6 Clean flux density= 37.422 MilliJy 2018 comps 3 3 09-APR-2009 23:54:19 IMAGR Total Cleaned flux density = 15.259 Jy 13002 comps 3 2 09-APR-2009 23:54:19 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:54:19 IMAGR I Polarization model processed 3 4 09-APR-2009 23:54:24 IMAGR Field 2 min = -6.0 MilliJy,max = 6.2 MilliJy 3 2 09-APR-2009 23:54:27 IMAGR BGC Clean: using 103 cell beam + residuals > 3.76 MilliJy 3 2 09-APR-2009 23:54:30 IMAGR 832 Residual map points loaded 3 4 09-APR-2009 23:54:30 IMAGR Field 2 min algorithm flux= -3.843 MilliJy iter= 2134 3 3 09-APR-2009 23:54:30 IMAGR Field 2 Clean flux density= 97.201 MilliJy 2134 comps 3 3 09-APR-2009 23:54:30 IMAGR Total Cleaned flux density = 15.270 Jy 13267 comps 3 2 09-APR-2009 23:54:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:54:30 IMAGR I Polarization model processed 3 4 09-APR-2009 23:54:35 IMAGR Field 4 min = -6.2 MilliJy,max = 8.0 MilliJy 3 2 09-APR-2009 23:54:37 IMAGR BGC Clean: using 103 cell beam + residuals > 3.71 MilliJy 3 2 09-APR-2009 23:54:42 IMAGR 634 Residual map points loaded 3 4 09-APR-2009 23:54:42 IMAGR Field 4 min algorithm flux= -3.776 MilliJy iter= 1545 3 3 09-APR-2009 23:54:42 IMAGR Field 4 Clean flux density= 66.829 MilliJy 1545 comps 3 3 09-APR-2009 23:54:42 IMAGR Total Cleaned flux density = 15.278 Jy 13501 comps 3 2 09-APR-2009 23:54:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:54:42 IMAGR I Polarization model processed 3 4 09-APR-2009 23:54:46 IMAGR Field 3 min = -6.2 MilliJy,max = 5.9 MilliJy 3 2 09-APR-2009 23:54:49 IMAGR BGC Clean: using 103 cell beam + residuals > 3.65 MilliJy 3 2 09-APR-2009 23:54:50 IMAGR 622 Residual map points loaded 3 4 09-APR-2009 23:54:50 IMAGR Field 3 min algorithm flux= -3.713 MilliJy iter= 2121 3 3 09-APR-2009 23:54:50 IMAGR Field 3 Clean flux density= -12.234 MilliJy 2121 comps 3 3 09-APR-2009 23:54:50 IMAGR Total Cleaned flux density = 15.273 Jy 13723 comps 3 2 09-APR-2009 23:54:50 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:54:50 IMAGR I Polarization model processed 3 4 09-APR-2009 23:54:54 IMAGR Field 5 min = -6.6 MilliJy,max = 5.6 MilliJy 3 2 09-APR-2009 23:54:57 IMAGR BGC Clean: using 103 cell beam + residuals > 3.60 MilliJy 3 2 09-APR-2009 23:55:00 IMAGR 643 Residual map points loaded 3 4 09-APR-2009 23:55:00 IMAGR Field 5 min algorithm flux= -3.666 MilliJy iter= 1601 3 3 09-APR-2009 23:55:00 IMAGR Field 5 Clean flux density= 96.832 MilliJy 1601 comps 3 3 09-APR-2009 23:55:00 IMAGR Total Cleaned flux density = 15.278 Jy 13961 comps 3 2 09-APR-2009 23:55:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:55:00 IMAGR I Polarization model processed 3 4 09-APR-2009 23:55:06 IMAGR Field 1 min = -5.6 MilliJy,max = 6.0 MilliJy 3 2 09-APR-2009 23:55:08 IMAGR BGC Clean: using 103 cell beam + residuals > 3.56 MilliJy 3 2 09-APR-2009 23:55:10 IMAGR 290 Residual map points loaded 3 4 09-APR-2009 23:55:10 IMAGR Field 1 min algorithm flux= -3.599 MilliJy iter= 2674 3 3 09-APR-2009 23:55:10 IMAGR Field 1 Clean flux density= 14.880 Jy 2674 comps 3 3 09-APR-2009 23:55:10 IMAGR Total Cleaned flux density = 15.284 Jy 14106 comps 3 2 09-APR-2009 23:55:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:55:10 IMAGR I Polarization model processed 3 4 09-APR-2009 23:55:15 IMAGR Field 7 min = -6.1 MilliJy,max = 6.2 MilliJy 3 2 09-APR-2009 23:55:18 IMAGR BGC Clean: using 103 cell beam + residuals > 3.51 MilliJy 3 2 09-APR-2009 23:55:21 IMAGR 720 Residual map points loaded 3 4 09-APR-2009 23:55:21 IMAGR Field 7 min algorithm flux= -3.570 MilliJy iter= 2265 3 3 09-APR-2009 23:55:21 IMAGR Field 7 Clean flux density= 115.918 MilliJy 2265 comps 3 3 09-APR-2009 23:55:21 IMAGR Total Cleaned flux density = 15.282 Jy 14358 comps 3 2 09-APR-2009 23:55:21 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:55:21 IMAGR I Polarization model processed 3 4 09-APR-2009 23:55:26 IMAGR Field 6 min = -5.3 MilliJy,max = 6.1 MilliJy 3 2 09-APR-2009 23:55:29 IMAGR BGC Clean: using 103 cell beam + residuals > 3.45 MilliJy 3 2 09-APR-2009 23:55:31 IMAGR 589 Residual map points loaded 3 4 09-APR-2009 23:55:31 IMAGR Field 6 min algorithm flux= -3.503 MilliJy iter= 2234 3 3 09-APR-2009 23:55:31 IMAGR Field 6 Clean flux density= 34.583 MilliJy 2234 comps 3 3 09-APR-2009 23:55:31 IMAGR Total Cleaned flux density = 15.279 Jy 14574 comps 3 2 09-APR-2009 23:55:31 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:55:31 IMAGR I Polarization model processed 3 4 09-APR-2009 23:55:36 IMAGR Field 2 min = -5.5 MilliJy,max = 5.8 MilliJy 3 2 09-APR-2009 23:55:39 IMAGR BGC Clean: using 103 cell beam + residuals > 3.39 MilliJy 3 2 09-APR-2009 23:55:40 IMAGR 860 Residual map points loaded 3 4 09-APR-2009 23:55:40 IMAGR Field 2 min algorithm flux= 3.459 MilliJy iter= 2421 3 3 09-APR-2009 23:55:40 IMAGR Field 2 Clean flux density= 101.704 MilliJy 2421 comps 3 3 09-APR-2009 23:55:40 IMAGR Total Cleaned flux density = 15.284 Jy 14861 comps 3 2 09-APR-2009 23:55:41 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:55:41 IMAGR I Polarization model processed 3 4 09-APR-2009 23:55:46 IMAGR Field 4 min = -5.7 MilliJy,max = 7.6 MilliJy 3 2 09-APR-2009 23:55:49 IMAGR BGC Clean: using 103 cell beam + residuals > 3.34 MilliJy 3 2 09-APR-2009 23:55:50 IMAGR 659 Residual map points loaded 3 4 09-APR-2009 23:55:50 IMAGR Field 4 min algorithm flux= 3.399 MilliJy iter= 1788 3 3 09-APR-2009 23:55:50 IMAGR Field 4 Clean flux density= 67.942 MilliJy 1788 comps 3 3 09-APR-2009 23:55:50 IMAGR Total Cleaned flux density = 15.285 Jy 15104 comps 3 2 09-APR-2009 23:55:50 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:55:50 IMAGR I Polarization model processed 3 4 09-APR-2009 23:55:55 IMAGR Field 3 min = -5.8 MilliJy,max = 5.4 MilliJy 3 2 09-APR-2009 23:55:57 IMAGR BGC Clean: using 103 cell beam + residuals > 3.29 MilliJy 3 2 09-APR-2009 23:55:59 IMAGR 661 Residual map points loaded 3 4 09-APR-2009 23:55:59 IMAGR Field 3 min algorithm flux= -3.350 MilliJy iter= 2372 3 3 09-APR-2009 23:55:59 IMAGR Field 3 Clean flux density= -20.879 MilliJy 2372 comps 3 3 09-APR-2009 23:55:59 IMAGR Total Cleaned flux density = 15.276 Jy 15355 comps 3 2 09-APR-2009 23:55:59 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:55:59 IMAGR I Polarization model processed 3 4 09-APR-2009 23:56:04 IMAGR Field 5 min = -6.2 MilliJy,max = 5.2 MilliJy 3 2 09-APR-2009 23:56:06 IMAGR BGC Clean: using 103 cell beam + residuals > 3.25 MilliJy 3 2 09-APR-2009 23:56:08 IMAGR 702 Residual map points loaded 3 4 09-APR-2009 23:56:08 IMAGR Field 5 min algorithm flux= -3.303 MilliJy iter= 1848 3 3 09-APR-2009 23:56:08 IMAGR Field 5 Clean flux density= 86.466 MilliJy 1848 comps 3 3 09-APR-2009 23:56:08 IMAGR Total Cleaned flux density = 15.266 Jy 15602 comps 3 2 09-APR-2009 23:56:08 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:56:08 IMAGR I Polarization model processed 3 4 09-APR-2009 23:56:13 IMAGR Field 1 min = -5.1 MilliJy,max = 5.3 MilliJy 3 2 09-APR-2009 23:56:16 IMAGR BGC Clean: using 103 cell beam + residuals > 3.21 MilliJy 3 2 09-APR-2009 23:56:17 IMAGR 243 Residual map points loaded 3 4 09-APR-2009 23:56:17 IMAGR Field 1 min algorithm flux= 3.242 MilliJy iter= 2804 3 3 09-APR-2009 23:56:17 IMAGR Field 1 Clean flux density= 14.890 Jy 2804 comps 3 3 09-APR-2009 23:56:17 IMAGR Total Cleaned flux density = 15.276 Jy 15732 comps 3 2 09-APR-2009 23:56:17 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:56:17 IMAGR I Polarization model processed 3 4 09-APR-2009 23:56:21 IMAGR Field 7 min = -5.6 MilliJy,max = 5.8 MilliJy 3 2 09-APR-2009 23:56:24 IMAGR BGC Clean: using 103 cell beam + residuals > 3.16 MilliJy 3 2 09-APR-2009 23:56:26 IMAGR 805 Residual map points loaded 3 4 09-APR-2009 23:56:26 IMAGR Field 7 min algorithm flux= 3.224 MilliJy iter= 2551 3 3 09-APR-2009 23:56:26 IMAGR Field 7 Clean flux density= 115.087 MilliJy 2551 comps 3 3 09-APR-2009 23:56:26 IMAGR Total Cleaned flux density = 15.275 Jy 16018 comps 3 2 09-APR-2009 23:56:26 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:56:26 IMAGR I Polarization model processed 3 4 09-APR-2009 23:56:30 IMAGR Field 6 min = -5.0 MilliJy,max = 5.7 MilliJy 3 2 09-APR-2009 23:56:33 IMAGR BGC Clean: using 103 cell beam + residuals > 3.12 MilliJy 3 2 09-APR-2009 23:56:34 IMAGR 560 Residual map points loaded 3 4 09-APR-2009 23:56:34 IMAGR Field 6 min algorithm flux= -3.164 MilliJy iter= 2458 3 3 09-APR-2009 23:56:34 IMAGR Field 6 Clean flux density= 27.420 MilliJy 2458 comps 3 3 09-APR-2009 23:56:34 IMAGR Total Cleaned flux density = 15.268 Jy 16242 comps 3 2 09-APR-2009 23:56:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:56:34 IMAGR I Polarization model processed 3 4 09-APR-2009 23:56:38 IMAGR Field 2 min = -5.1 MilliJy,max = 5.5 MilliJy 3 2 09-APR-2009 23:56:41 IMAGR BGC Clean: using 103 cell beam + residuals > 3.07 MilliJy 3 2 09-APR-2009 23:56:43 IMAGR 801 Residual map points loaded 3 4 09-APR-2009 23:56:43 IMAGR Field 2 min algorithm flux= 3.123 MilliJy iter= 2715 3 3 09-APR-2009 23:56:43 IMAGR Field 2 Clean flux density= 106.589 MilliJy 2715 comps 3 3 09-APR-2009 23:56:43 IMAGR Total Cleaned flux density = 15.273 Jy 16536 comps 3 2 09-APR-2009 23:56:43 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:56:43 IMAGR I Polarization model processed 3 4 09-APR-2009 23:56:47 IMAGR Field 4 min = -5.4 MilliJy,max = 7.0 MilliJy 3 2 09-APR-2009 23:56:50 IMAGR BGC Clean: using 103 cell beam + residuals > 3.02 MilliJy 3 2 09-APR-2009 23:56:51 IMAGR 656 Residual map points loaded 3 4 09-APR-2009 23:56:51 IMAGR Field 4 min algorithm flux= 3.071 MilliJy iter= 2045 3 3 09-APR-2009 23:56:51 IMAGR Field 4 Clean flux density= 74.554 MilliJy 2045 comps 3 3 09-APR-2009 23:56:51 IMAGR Total Cleaned flux density = 15.280 Jy 16793 comps 3 2 09-APR-2009 23:56:52 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:56:52 IMAGR I Polarization model processed 3 4 09-APR-2009 23:56:56 IMAGR Field 3 min = -5.1 MilliJy,max = 5.1 MilliJy 3 2 09-APR-2009 23:56:58 IMAGR BGC Clean: using 103 cell beam + residuals > 2.98 MilliJy 3 2 09-APR-2009 23:56:59 IMAGR 620 Residual map points loaded 3 4 09-APR-2009 23:57:00 IMAGR Field 3 min algorithm flux= 3.025 MilliJy iter= 2628 3 3 09-APR-2009 23:57:00 IMAGR Field 3 Clean flux density= -20.934 MilliJy 2628 comps 3 3 09-APR-2009 23:57:02 IMAGR Total Cleaned flux density = 15.280 Jy 17049 comps 3 2 09-APR-2009 23:57:02 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:57:02 IMAGR I Polarization model processed 3 4 09-APR-2009 23:57:06 IMAGR Field 5 min = -5.6 MilliJy,max = 4.9 MilliJy 3 2 09-APR-2009 23:57:09 IMAGR BGC Clean: using 103 cell beam + residuals > 2.93 MilliJy 3 2 09-APR-2009 23:57:10 IMAGR 615 Residual map points loaded 3 4 09-APR-2009 23:57:10 IMAGR Field 5 min algorithm flux= 2.980 MilliJy iter= 2104 3 3 09-APR-2009 23:57:10 IMAGR Field 5 Clean flux density= 90.637 MilliJy 2104 comps 3 3 09-APR-2009 23:57:10 IMAGR Total Cleaned flux density = 15.284 Jy 17305 comps 3 2 09-APR-2009 23:57:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:57:10 IMAGR I Polarization model processed 3 4 09-APR-2009 23:57:14 IMAGR Field 1 min = -4.6 MilliJy,max = 4.9 MilliJy 3 2 09-APR-2009 23:57:17 IMAGR BGC Clean: using 103 cell beam + residuals > 2.91 MilliJy 3 2 09-APR-2009 23:57:17 IMAGR 209 Residual map points loaded 3 4 09-APR-2009 23:57:17 IMAGR Field 1 min algorithm flux= -2.929 MilliJy iter= 2930 3 3 09-APR-2009 23:57:17 IMAGR Field 1 Clean flux density= 14.890 Jy 2930 comps 3 3 09-APR-2009 23:57:17 IMAGR Total Cleaned flux density = 15.283 Jy 17431 comps 3 2 09-APR-2009 23:57:17 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:57:17 IMAGR I Polarization model processed 3 4 09-APR-2009 23:57:21 IMAGR Field 7 min = -5.0 MilliJy,max = 5.4 MilliJy 3 2 09-APR-2009 23:57:24 IMAGR BGC Clean: using 103 cell beam + residuals > 2.86 MilliJy 3 2 09-APR-2009 23:57:24 IMAGR 805 Residual map points loaded 3 4 09-APR-2009 23:57:24 IMAGR Field 7 min algorithm flux= 2.909 MilliJy iter= 2840 3 3 09-APR-2009 23:57:24 IMAGR Field 7 Clean flux density= 130.131 MilliJy 2840 comps 3 3 09-APR-2009 23:57:24 IMAGR Total Cleaned flux density = 15.298 Jy 17720 comps 3 2 09-APR-2009 23:57:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:57:24 IMAGR I Polarization model processed 3 4 09-APR-2009 23:57:30 IMAGR Field 6 min = -4.5 MilliJy,max = 5.2 MilliJy 3 2 09-APR-2009 23:57:32 IMAGR BGC Clean: using 103 cell beam + residuals > 2.82 MilliJy 3 2 09-APR-2009 23:57:33 IMAGR 682 Residual map points loaded 3 4 09-APR-2009 23:57:33 IMAGR Field 6 min algorithm flux= -2.863 MilliJy iter= 2720 3 3 09-APR-2009 23:57:33 IMAGR Field 6 Clean flux density= 32.672 MilliJy 2720 comps 3 3 09-APR-2009 23:57:33 IMAGR Total Cleaned flux density = 15.304 Jy 17982 comps 3 2 09-APR-2009 23:57:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:57:34 IMAGR I Polarization model processed 3 4 09-APR-2009 23:57:39 IMAGR Field 2 min = -4.8 MilliJy,max = 5.2 MilliJy 3 2 09-APR-2009 23:57:41 IMAGR BGC Clean: using 103 cell beam + residuals > 2.77 MilliJy 3 2 09-APR-2009 23:57:43 IMAGR 785 Residual map points loaded 3 4 09-APR-2009 23:57:44 IMAGR Field 2 min algorithm flux= 2.820 MilliJy iter= 3008 3 3 09-APR-2009 23:57:44 IMAGR Field 2 Clean flux density= 106.882 MilliJy 3008 comps 3 3 09-APR-2009 23:57:44 IMAGR Total Cleaned flux density = 15.304 Jy 18275 comps 3 2 09-APR-2009 23:57:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:57:44 IMAGR I Polarization model processed 3 4 09-APR-2009 23:57:48 IMAGR Field 4 min = -5.0 MilliJy,max = 6.5 MilliJy 3 2 09-APR-2009 23:57:51 IMAGR BGC Clean: using 103 cell beam + residuals > 2.73 MilliJy 3 2 09-APR-2009 23:57:51 IMAGR 586 Residual map points loaded 3 4 09-APR-2009 23:57:52 IMAGR Field 4 min algorithm flux= -2.772 MilliJy iter= 2294 3 3 09-APR-2009 23:57:53 IMAGR Field 4 Clean flux density= 77.044 MilliJy 2294 comps 3 3 09-APR-2009 23:57:53 IMAGR Total Cleaned flux density = 15.306 Jy 18524 comps 3 2 09-APR-2009 23:57:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:57:53 IMAGR I Polarization model processed 3 4 09-APR-2009 23:57:57 IMAGR Field 3 min = -4.8 MilliJy,max = 4.6 MilliJy 3 2 09-APR-2009 23:57:59 IMAGR BGC Clean: using 103 cell beam + residuals > 2.69 MilliJy 3 2 09-APR-2009 23:58:01 IMAGR 591 Residual map points loaded 3 4 09-APR-2009 23:58:01 IMAGR Field 3 min algorithm flux= 2.730 MilliJy iter= 2875 3 3 09-APR-2009 23:58:01 IMAGR Field 3 Clean flux density= -23.931 MilliJy 2875 comps 3 3 09-APR-2009 23:58:01 IMAGR Total Cleaned flux density = 15.303 Jy 18771 comps 3 2 09-APR-2009 23:58:01 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:58:01 IMAGR I Polarization model processed 3 4 09-APR-2009 23:58:04 IMAGR Field 5 min = -5.1 MilliJy,max = 4.7 MilliJy 3 2 09-APR-2009 23:58:07 IMAGR BGC Clean: using 103 cell beam + residuals > 2.66 MilliJy 3 2 09-APR-2009 23:58:09 IMAGR 647 Residual map points loaded 3 4 09-APR-2009 23:58:09 IMAGR Field 5 min algorithm flux= 2.696 MilliJy iter= 2369 3 3 09-APR-2009 23:58:09 IMAGR Field 5 Clean flux density= 86.986 MilliJy 2369 comps 3 3 09-APR-2009 23:58:09 IMAGR Total Cleaned flux density = 15.300 Jy 19036 comps 3 2 09-APR-2009 23:58:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:58:11 IMAGR I Polarization model processed 3 4 09-APR-2009 23:58:15 IMAGR Field 1 min = -4.2 MilliJy,max = 4.2 MilliJy 3 2 09-APR-2009 23:58:18 IMAGR BGC Clean: using 103 cell beam + residuals > 2.63 MilliJy 3 2 09-APR-2009 23:58:20 IMAGR 238 Residual map points loaded 3 4 09-APR-2009 23:58:20 IMAGR Field 1 min algorithm flux= 2.653 MilliJy iter= 3064 3 3 09-APR-2009 23:58:20 IMAGR Field 1 Clean flux density= 14.895 Jy 3064 comps 3 3 09-APR-2009 23:58:20 IMAGR Total Cleaned flux density = 15.305 Jy 19170 comps 3 2 09-APR-2009 23:58:20 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:58:20 IMAGR I Polarization model processed 3 4 09-APR-2009 23:58:24 IMAGR Field 7 min = -4.5 MilliJy,max = 5.2 MilliJy 3 2 09-APR-2009 23:58:27 IMAGR BGC Clean: using 103 cell beam + residuals > 2.59 MilliJy 3 2 09-APR-2009 23:58:28 IMAGR 783 Residual map points loaded 3 4 09-APR-2009 23:58:28 IMAGR Field 7 min algorithm flux= 2.631 MilliJy iter= 3127 3 3 09-APR-2009 23:58:29 IMAGR Field 7 Clean flux density= 125.625 MilliJy 3127 comps 3 3 09-APR-2009 23:58:29 IMAGR Total Cleaned flux density = 15.301 Jy 19457 comps 3 2 09-APR-2009 23:58:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:58:30 IMAGR I Polarization model processed 3 4 09-APR-2009 23:58:34 IMAGR Field 6 min = -4.3 MilliJy,max = 4.9 MilliJy 3 2 09-APR-2009 23:58:36 IMAGR BGC Clean: using 103 cell beam + residuals > 2.55 MilliJy 3 2 09-APR-2009 23:58:38 IMAGR 636 Residual map points loaded 3 4 09-APR-2009 23:58:39 IMAGR Field 6 min algorithm flux= 2.589 MilliJy iter= 2988 3 3 09-APR-2009 23:58:39 IMAGR Field 6 Clean flux density= 26.874 MilliJy 2988 comps 3 3 09-APR-2009 23:58:39 IMAGR Total Cleaned flux density = 15.295 Jy 19725 comps 3 2 09-APR-2009 23:58:40 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:58:40 IMAGR I Polarization model processed 3 4 09-APR-2009 23:58:44 IMAGR Field 2 min = -4.5 MilliJy,max = 4.8 MilliJy 3 2 09-APR-2009 23:58:49 IMAGR BGC Clean: using 103 cell beam + residuals > 2.51 MilliJy 3 2 09-APR-2009 23:58:50 IMAGR 842 Residual map points loaded 3 4 09-APR-2009 23:58:51 IMAGR Field 2 min algorithm flux= 2.553 MilliJy iter= 3321 3 3 09-APR-2009 23:58:51 IMAGR Field 2 Clean flux density= 106.114 MilliJy 3321 comps 3 3 09-APR-2009 23:58:51 IMAGR Total Cleaned flux density = 15.294 Jy 20038 comps 3 2 09-APR-2009 23:58:51 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:58:51 IMAGR I Polarization model processed 3 4 09-APR-2009 23:58:56 IMAGR Field 4 min = -4.8 MilliJy,max = 6.2 MilliJy 3 2 09-APR-2009 23:58:59 IMAGR BGC Clean: using 103 cell beam + residuals > 2.48 MilliJy 3 2 09-APR-2009 23:59:00 IMAGR 789 Residual map points loaded 3 4 09-APR-2009 23:59:00 IMAGR Field 4 min algorithm flux= -2.515 MilliJy iter= 2596 3 3 09-APR-2009 23:59:00 IMAGR Field 4 Clean flux density= 74.362 MilliJy 2596 comps 3 3 09-APR-2009 23:59:00 IMAGR Total Cleaned flux density = 15.291 Jy 20340 comps 3 2 09-APR-2009 23:59:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:59:00 IMAGR I Polarization model processed 3 4 09-APR-2009 23:59:05 IMAGR Field 3 min = -4.3 MilliJy,max = 4.2 MilliJy 3 2 09-APR-2009 23:59:08 IMAGR BGC Clean: using 103 cell beam + residuals > 2.44 MilliJy 3 2 09-APR-2009 23:59:09 IMAGR 594 Residual map points loaded 3 4 09-APR-2009 23:59:09 IMAGR Field 3 min algorithm flux= -2.473 MilliJy iter= 3124 3 3 09-APR-2009 23:59:09 IMAGR Field 3 Clean flux density= -19.638 MilliJy 3124 comps 3 3 09-APR-2009 23:59:09 IMAGR Total Cleaned flux density = 15.296 Jy 20589 comps 3 2 09-APR-2009 23:59:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:59:09 IMAGR I Polarization model processed 3 4 09-APR-2009 23:59:14 IMAGR Field 5 min = -4.8 MilliJy,max = 4.5 MilliJy 3 2 09-APR-2009 23:59:16 IMAGR BGC Clean: using 103 cell beam + residuals > 2.41 MilliJy 3 2 09-APR-2009 23:59:17 IMAGR 674 Residual map points loaded 3 4 09-APR-2009 23:59:18 IMAGR Field 5 min algorithm flux= 2.443 MilliJy iter= 2642 3 3 09-APR-2009 23:59:18 IMAGR Field 5 Clean flux density= 91.675 MilliJy 2642 comps 3 3 09-APR-2009 23:59:18 IMAGR Total Cleaned flux density = 15.300 Jy 20862 comps 3 2 09-APR-2009 23:59:18 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:59:18 IMAGR I Polarization model processed 3 4 09-APR-2009 23:59:23 IMAGR Field 1 min = -4.0 MilliJy,max = 3.8 MilliJy 3 2 09-APR-2009 23:59:25 IMAGR BGC Clean: using 103 cell beam + residuals > 2.39 MilliJy 3 2 09-APR-2009 23:59:27 IMAGR 212 Residual map points loaded 3 4 09-APR-2009 23:59:28 IMAGR Field 1 min algorithm flux= 2.404 MilliJy iter= 3190 3 3 09-APR-2009 23:59:28 IMAGR Field 1 Clean flux density= 14.901 Jy 3190 comps 3 3 09-APR-2009 23:59:28 IMAGR Total Cleaned flux density = 15.306 Jy 20988 comps 3 2 09-APR-2009 23:59:28 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:59:28 IMAGR I Polarization model processed 3 4 09-APR-2009 23:59:32 IMAGR Field 7 min = -4.2 MilliJy,max = 5.0 MilliJy 3 2 09-APR-2009 23:59:35 IMAGR BGC Clean: using 103 cell beam + residuals > 2.35 MilliJy 3 2 09-APR-2009 23:59:37 IMAGR 804 Residual map points loaded 3 4 09-APR-2009 23:59:38 IMAGR Field 7 min algorithm flux= 2.387 MilliJy iter= 3435 3 3 09-APR-2009 23:59:38 IMAGR Field 7 Clean flux density= 131.323 MilliJy 3435 comps 3 3 09-APR-2009 23:59:38 IMAGR Total Cleaned flux density = 15.312 Jy 21296 comps 3 2 09-APR-2009 23:59:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:59:38 IMAGR I Polarization model processed 3 4 09-APR-2009 23:59:42 IMAGR Field 6 min = -3.9 MilliJy,max = 4.7 MilliJy 3 2 09-APR-2009 23:59:45 IMAGR BGC Clean: using 103 cell beam + residuals > 2.32 MilliJy 3 2 09-APR-2009 23:59:46 IMAGR 538 Residual map points loaded 3 4 09-APR-2009 23:59:46 IMAGR Field 6 min algorithm flux= 2.345 MilliJy iter= 3236 3 3 09-APR-2009 23:59:46 IMAGR Field 6 Clean flux density= 23.996 MilliJy 3236 comps 3 3 09-APR-2009 23:59:46 IMAGR Total Cleaned flux density = 15.309 Jy 21544 comps 3 2 09-APR-2009 23:59:46 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:59:46 IMAGR I Polarization model processed 3 4 09-APR-2009 23:59:51 IMAGR Field 2 min = -4.2 MilliJy,max = 4.6 MilliJy 3 2 09-APR-2009 23:59:54 IMAGR BGC Clean: using 103 cell beam + residuals > 2.28 MilliJy 3 2 09-APR-2009 23:59:54 IMAGR 810 Residual map points loaded 3 4 09-APR-2009 23:59:57 IMAGR Field 2 min algorithm flux= -2.313 MilliJy iter= 3620 3 3 09-APR-2009 23:59:57 IMAGR Field 2 Clean flux density= 107.804 MilliJy 3620 comps 3 3 09-APR-2009 23:59:57 IMAGR Total Cleaned flux density = 15.311 Jy 21843 comps 3 2 09-APR-2009 23:59:57 IMAGR VISDFT: Begin DFT component subtraction 3 3 09-APR-2009 23:59:57 IMAGR I Polarization model processed 3 4 10-APR-2009 00:00:02 IMAGR Field 4 min = -4.5 MilliJy,max = 5.7 MilliJy 3 2 10-APR-2009 00:00:05 IMAGR BGC Clean: using 103 cell beam + residuals > 2.25 MilliJy 3 2 10-APR-2009 00:00:09 IMAGR 646 Residual map points loaded 3 4 10-APR-2009 00:00:10 IMAGR Field 4 min algorithm flux= 2.276 MilliJy iter= 2873 3 3 10-APR-2009 00:00:10 IMAGR Field 4 Clean flux density= 75.091 MilliJy 2873 comps 3 3 10-APR-2009 00:00:10 IMAGR Total Cleaned flux density = 15.311 Jy 22120 comps 3 2 10-APR-2009 00:00:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:00:10 IMAGR I Polarization model processed 3 4 10-APR-2009 00:00:14 IMAGR Field 3 min = -4.2 MilliJy,max = 4.0 MilliJy 3 2 10-APR-2009 00:00:17 IMAGR BGC Clean: using 103 cell beam + residuals > 2.22 MilliJy 3 2 10-APR-2009 00:00:17 IMAGR 704 Residual map points loaded 3 4 10-APR-2009 00:00:18 IMAGR Field 3 min algorithm flux= -2.248 MilliJy iter= 3431 3 3 10-APR-2009 00:00:18 IMAGR Field 3 Clean flux density= -20.720 MilliJy 3431 comps 3 3 10-APR-2009 00:00:18 IMAGR Total Cleaned flux density = 15.310 Jy 22427 comps 3 2 10-APR-2009 00:00:18 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:00:18 IMAGR I Polarization model processed 3 4 10-APR-2009 00:00:22 IMAGR Field 5 min = -4.5 MilliJy,max = 4.3 MilliJy 3 2 10-APR-2009 00:00:25 IMAGR BGC Clean: using 103 cell beam + residuals > 2.19 MilliJy 3 2 10-APR-2009 00:00:26 IMAGR 714 Residual map points loaded 3 4 10-APR-2009 00:00:27 IMAGR Field 5 min algorithm flux= 2.218 MilliJy iter= 2947 3 3 10-APR-2009 00:00:27 IMAGR Field 5 Clean flux density= 96.919 MilliJy 2947 comps 3 3 10-APR-2009 00:00:27 IMAGR Total Cleaned flux density = 15.316 Jy 22732 comps 3 2 10-APR-2009 00:00:28 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:00:28 IMAGR I Polarization model processed 3 4 10-APR-2009 00:00:33 IMAGR Field 1 min = -3.5 MilliJy,max = 3.6 MilliJy 3 2 10-APR-2009 00:00:35 IMAGR BGC Clean: using 103 cell beam + residuals > 2.17 MilliJy 3 2 10-APR-2009 00:00:35 IMAGR 176 Residual map points loaded 3 4 10-APR-2009 00:00:35 IMAGR Field 1 min algorithm flux= 2.181 MilliJy iter= 3304 3 3 10-APR-2009 00:00:35 IMAGR Field 1 Clean flux density= 14.900 Jy 3304 comps 3 3 10-APR-2009 00:00:35 IMAGR Total Cleaned flux density = 15.315 Jy 22846 comps 3 2 10-APR-2009 00:00:35 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:00:35 IMAGR I Polarization model processed 3 4 10-APR-2009 00:00:39 IMAGR Field 7 min = -3.8 MilliJy,max = 4.8 MilliJy 3 2 10-APR-2009 00:00:42 IMAGR BGC Clean: using 103 cell beam + residuals > 2.13 MilliJy 3 2 10-APR-2009 00:00:44 IMAGR 933 Residual map points loaded 3 4 10-APR-2009 00:00:44 IMAGR Field 7 min algorithm flux= 2.167 MilliJy iter= 3772 3 3 10-APR-2009 00:00:44 IMAGR Field 7 Clean flux density= 130.563 MilliJy 3772 comps 3 3 10-APR-2009 00:00:44 IMAGR Total Cleaned flux density = 15.314 Jy 23183 comps 3 2 10-APR-2009 00:00:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:00:44 IMAGR I Polarization model processed 3 4 10-APR-2009 00:00:49 IMAGR Field 6 min = -3.7 MilliJy,max = 4.3 MilliJy 3 2 10-APR-2009 00:00:51 IMAGR BGC Clean: using 103 cell beam + residuals > 2.10 MilliJy 3 2 10-APR-2009 00:00:54 IMAGR 608 Residual map points loaded 3 4 10-APR-2009 00:00:55 IMAGR Field 6 min algorithm flux= 2.131 MilliJy iter= 3514 3 3 10-APR-2009 00:00:55 IMAGR Field 6 Clean flux density= 21.414 MilliJy 3514 comps 3 3 10-APR-2009 00:00:55 IMAGR Total Cleaned flux density = 15.311 Jy 23461 comps 3 2 10-APR-2009 00:00:55 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:00:55 IMAGR I Polarization model processed 3 4 10-APR-2009 00:01:00 IMAGR Field 2 min = -3.9 MilliJy,max = 4.4 MilliJy 3 2 10-APR-2009 00:01:03 IMAGR BGC Clean: using 103 cell beam + residuals > 2.07 MilliJy 3 2 10-APR-2009 00:01:05 IMAGR 835 Residual map points loaded 3 4 10-APR-2009 00:01:06 IMAGR Field 2 min algorithm flux= -2.101 MilliJy iter= 3935 3 3 10-APR-2009 00:01:06 IMAGR Field 2 Clean flux density= 110.554 MilliJy 3935 comps 3 3 10-APR-2009 00:01:06 IMAGR Total Cleaned flux density = 15.314 Jy 23776 comps 3 2 10-APR-2009 00:01:06 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:01:06 IMAGR I Polarization model processed 3 4 10-APR-2009 00:01:11 IMAGR Field 4 min = -4.4 MilliJy,max = 5.4 MilliJy 3 2 10-APR-2009 00:01:14 IMAGR BGC Clean: using 103 cell beam + residuals > 2.04 MilliJy 3 2 10-APR-2009 00:01:15 IMAGR 690 Residual map points loaded 3 4 10-APR-2009 00:01:16 IMAGR Field 4 min algorithm flux= -2.070 MilliJy iter= 3169 3 3 10-APR-2009 00:01:16 IMAGR Field 4 Clean flux density= 77.221 MilliJy 3169 comps 3 3 10-APR-2009 00:01:16 IMAGR Total Cleaned flux density = 15.316 Jy 24072 comps 3 2 10-APR-2009 00:01:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:01:16 IMAGR I Polarization model processed 3 4 10-APR-2009 00:01:21 IMAGR Field 3 min = -3.8 MilliJy,max = 3.5 MilliJy 3 2 10-APR-2009 00:01:24 IMAGR BGC Clean: using 103 cell beam + residuals > 2.01 MilliJy 3 2 10-APR-2009 00:01:25 IMAGR 617 Residual map points loaded 3 4 10-APR-2009 00:01:26 IMAGR Field 3 min algorithm flux= -2.040 MilliJy iter= 3720 3 3 10-APR-2009 00:01:26 IMAGR Field 3 Clean flux density= -20.972 MilliJy 3720 comps 3 3 10-APR-2009 00:01:26 IMAGR Total Cleaned flux density = 15.316 Jy 24361 comps 3 2 10-APR-2009 00:01:26 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:01:26 IMAGR I Polarization model processed 3 4 10-APR-2009 00:01:31 IMAGR Field 5 min = -4.1 MilliJy,max = 4.2 MilliJy 3 2 10-APR-2009 00:01:33 IMAGR BGC Clean: using 103 cell beam + residuals > 1.99 MilliJy 3 2 10-APR-2009 00:01:35 IMAGR 651 Residual map points loaded 3 4 10-APR-2009 00:01:35 IMAGR Field 5 min algorithm flux= 2.011 MilliJy iter= 3233 3 3 10-APR-2009 00:01:35 IMAGR Field 5 Clean flux density= 101.849 MilliJy 3233 comps 3 3 10-APR-2009 00:01:35 IMAGR Total Cleaned flux density = 15.321 Jy 24647 comps 3 2 10-APR-2009 00:01:35 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:01:35 IMAGR I Polarization model processed 3 4 10-APR-2009 00:01:39 IMAGR Field 1 min = -3.2 MilliJy,max = 3.2 MilliJy 3 2 10-APR-2009 00:01:42 IMAGR BGC Clean: using 103 cell beam + residuals > 1.97 MilliJy 3 2 10-APR-2009 00:01:43 IMAGR 150 Residual map points loaded 3 4 10-APR-2009 00:01:43 IMAGR Field 1 min algorithm flux= 1.980 MilliJy iter= 3403 3 3 10-APR-2009 00:01:43 IMAGR Field 1 Clean flux density= 14.904 Jy 3403 comps 3 3 10-APR-2009 00:01:43 IMAGR Total Cleaned flux density = 15.324 Jy 24746 comps 3 2 10-APR-2009 00:01:43 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:01:43 IMAGR I Polarization model processed 3 4 10-APR-2009 00:01:47 IMAGR Field 7 min = -3.6 MilliJy,max = 4.6 MilliJy 3 2 10-APR-2009 00:01:49 IMAGR BGC Clean: using 103 cell beam + residuals > 1.94 MilliJy 3 2 10-APR-2009 00:01:51 IMAGR 914 Residual map points loaded 3 4 10-APR-2009 00:01:51 IMAGR Field 7 min algorithm flux= 1.968 MilliJy iter= 4114 3 3 10-APR-2009 00:01:51 IMAGR Field 7 Clean flux density= 132.638 MilliJy 4114 comps 3 3 10-APR-2009 00:01:51 IMAGR Total Cleaned flux density = 15.326 Jy 25088 comps 3 2 10-APR-2009 00:01:51 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:01:51 IMAGR I Polarization model processed 3 4 10-APR-2009 00:01:56 IMAGR Field 6 min = -3.4 MilliJy,max = 4.1 MilliJy 3 2 10-APR-2009 00:01:59 IMAGR BGC Clean: using 103 cell beam + residuals > 1.91 MilliJy 3 2 10-APR-2009 00:02:00 IMAGR 638 Residual map points loaded 3 4 10-APR-2009 00:02:00 IMAGR Field 6 min algorithm flux= -1.935 MilliJy iter= 3803 3 3 10-APR-2009 00:02:00 IMAGR Field 6 Clean flux density= 16.958 MilliJy 3803 comps 3 3 10-APR-2009 00:02:00 IMAGR Total Cleaned flux density = 15.322 Jy 25377 comps 3 2 10-APR-2009 00:02:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:02:00 IMAGR I Polarization model processed 3 4 10-APR-2009 00:02:04 IMAGR Field 2 min = -3.6 MilliJy,max = 4.0 MilliJy 3 2 10-APR-2009 00:02:07 IMAGR BGC Clean: using 103 cell beam + residuals > 1.88 MilliJy 3 2 10-APR-2009 00:02:09 IMAGR 951 Residual map points loaded 3 4 10-APR-2009 00:02:09 IMAGR Field 2 min algorithm flux= 1.909 MilliJy iter= 4286 3 3 10-APR-2009 00:02:09 IMAGR Field 2 Clean flux density= 108.363 MilliJy 4286 comps 3 3 10-APR-2009 00:02:09 IMAGR Total Cleaned flux density = 15.320 Jy 25728 comps 3 2 10-APR-2009 00:02:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:02:09 IMAGR I Polarization model processed 3 4 10-APR-2009 00:02:13 IMAGR Field 4 min = -4.1 MilliJy,max = 5.0 MilliJy 3 2 10-APR-2009 00:02:16 IMAGR BGC Clean: using 103 cell beam + residuals > 1.85 MilliJy 3 2 10-APR-2009 00:02:18 IMAGR 734 Residual map points loaded 3 4 10-APR-2009 00:02:18 IMAGR Field 4 min algorithm flux= 1.879 MilliJy iter= 3481 3 3 10-APR-2009 00:02:18 IMAGR Field 4 Clean flux density= 76.913 MilliJy 3481 comps 3 3 10-APR-2009 00:02:18 IMAGR Total Cleaned flux density = 15.319 Jy 26040 comps 3 2 10-APR-2009 00:02:18 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:02:18 IMAGR I Polarization model processed 3 4 10-APR-2009 00:02:23 IMAGR Field 3 min = -3.6 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:02:25 IMAGR BGC Clean: using 103 cell beam + residuals > 1.83 MilliJy 3 2 10-APR-2009 00:02:27 IMAGR 616 Residual map points loaded 3 4 10-APR-2009 00:02:27 IMAGR Field 3 min algorithm flux= 1.852 MilliJy iter= 4012 3 3 10-APR-2009 00:02:27 IMAGR Field 3 Clean flux density= -17.086 MilliJy 4012 comps 3 3 10-APR-2009 00:02:27 IMAGR Total Cleaned flux density = 15.323 Jy 26332 comps 3 2 10-APR-2009 00:02:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:02:27 IMAGR I Polarization model processed 3 4 10-APR-2009 00:02:32 IMAGR Field 5 min = -3.8 MilliJy,max = 4.1 MilliJy 3 2 10-APR-2009 00:02:35 IMAGR BGC Clean: using 103 cell beam + residuals > 1.81 MilliJy 3 2 10-APR-2009 00:02:37 IMAGR 716 Residual map points loaded 3 4 10-APR-2009 00:02:38 IMAGR Field 5 min algorithm flux= 1.830 MilliJy iter= 3558 3 3 10-APR-2009 00:02:38 IMAGR Field 5 Clean flux density= 107.985 MilliJy 3558 comps 3 3 10-APR-2009 00:02:38 IMAGR Total Cleaned flux density = 15.329 Jy 26657 comps 3 2 10-APR-2009 00:02:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:02:38 IMAGR I Polarization model processed 3 4 10-APR-2009 00:02:42 IMAGR Field 1 min = -2.9 MilliJy,max = 2.8 MilliJy 3 2 10-APR-2009 00:02:45 IMAGR BGC Clean: using 103 cell beam + residuals > 1.79 MilliJy 3 2 10-APR-2009 00:02:47 IMAGR 172 Residual map points loaded 3 4 10-APR-2009 00:02:47 IMAGR Field 1 min algorithm flux= -1.802 MilliJy iter= 3519 3 3 10-APR-2009 00:02:47 IMAGR Field 1 Clean flux density= 14.907 Jy 3519 comps 3 3 10-APR-2009 00:02:47 IMAGR Total Cleaned flux density = 15.333 Jy 26773 comps 3 2 10-APR-2009 00:02:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:02:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:02:51 IMAGR Field 7 min = -3.4 MilliJy,max = 4.4 MilliJy 3 2 10-APR-2009 00:02:54 IMAGR BGC Clean: using 103 cell beam + residuals > 1.76 MilliJy 3 2 10-APR-2009 00:02:54 IMAGR 884 Residual map points loaded 3 4 10-APR-2009 00:02:54 IMAGR Field 7 min algorithm flux= 1.789 MilliJy iter= 4458 3 3 10-APR-2009 00:02:54 IMAGR Field 7 Clean flux density= 129.642 MilliJy 4458 comps 3 3 10-APR-2009 00:02:54 IMAGR Total Cleaned flux density = 15.330 Jy 27117 comps 3 2 10-APR-2009 00:02:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:02:54 IMAGR I Polarization model processed 3 4 10-APR-2009 00:03:01 IMAGR Field 6 min = -3.3 MilliJy,max = 3.8 MilliJy 3 2 10-APR-2009 00:03:04 IMAGR BGC Clean: using 103 cell beam + residuals > 1.74 MilliJy 3 2 10-APR-2009 00:03:07 IMAGR 616 Residual map points loaded 3 4 10-APR-2009 00:03:07 IMAGR Field 6 min algorithm flux= -1.761 MilliJy iter= 4101 3 3 10-APR-2009 00:03:07 IMAGR Field 6 Clean flux density= 13.021 MilliJy 4101 comps 3 3 10-APR-2009 00:03:07 IMAGR Total Cleaned flux density = 15.326 Jy 27415 comps 3 2 10-APR-2009 00:03:07 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:03:07 IMAGR I Polarization model processed 3 4 10-APR-2009 00:03:13 IMAGR Field 2 min = -3.4 MilliJy,max = 3.8 MilliJy 3 2 10-APR-2009 00:03:15 IMAGR BGC Clean: using 103 cell beam + residuals > 1.71 MilliJy 3 2 10-APR-2009 00:03:17 IMAGR 953 Residual map points loaded 3 4 10-APR-2009 00:03:17 IMAGR Field 2 min algorithm flux= 1.736 MilliJy iter= 4645 3 3 10-APR-2009 00:03:17 IMAGR Field 2 Clean flux density= 109.516 MilliJy 4645 comps 3 3 10-APR-2009 00:03:17 IMAGR Total Cleaned flux density = 15.327 Jy 27774 comps 3 2 10-APR-2009 00:03:17 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:03:17 IMAGR I Polarization model processed 3 4 10-APR-2009 00:03:22 IMAGR Field 4 min = -4.0 MilliJy,max = 4.7 MilliJy 3 2 10-APR-2009 00:03:24 IMAGR BGC Clean: using 103 cell beam + residuals > 1.69 MilliJy 3 2 10-APR-2009 00:03:28 IMAGR 756 Residual map points loaded 3 4 10-APR-2009 00:03:29 IMAGR Field 4 min algorithm flux= -1.709 MilliJy iter= 3801 3 3 10-APR-2009 00:03:29 IMAGR Field 4 Clean flux density= 81.111 MilliJy 3801 comps 3 3 10-APR-2009 00:03:29 IMAGR Total Cleaned flux density = 15.331 Jy 28094 comps 3 2 10-APR-2009 00:03:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:03:31 IMAGR I Polarization model processed 3 4 10-APR-2009 00:03:35 IMAGR Field 3 min = -3.3 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:03:38 IMAGR BGC Clean: using 103 cell beam + residuals > 1.67 MilliJy 3 2 10-APR-2009 00:03:39 IMAGR 592 Residual map points loaded 3 4 10-APR-2009 00:03:39 IMAGR Field 3 min algorithm flux= -1.684 MilliJy iter= 4287 3 3 10-APR-2009 00:03:39 IMAGR Field 3 Clean flux density= -15.919 MilliJy 4287 comps 3 3 10-APR-2009 00:03:39 IMAGR Total Cleaned flux density = 15.332 Jy 28369 comps 3 2 10-APR-2009 00:03:39 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:03:39 IMAGR I Polarization model processed 3 4 10-APR-2009 00:03:44 IMAGR Field 5 min = -3.7 MilliJy,max = 4.0 MilliJy 3 2 10-APR-2009 00:03:47 IMAGR BGC Clean: using 103 cell beam + residuals > 1.64 MilliJy 3 2 10-APR-2009 00:03:50 IMAGR 669 Residual map points loaded 3 4 10-APR-2009 00:03:50 IMAGR Field 5 min algorithm flux= 1.663 MilliJy iter= 3865 3 3 10-APR-2009 00:03:50 IMAGR Field 5 Clean flux density= 104.103 MilliJy 3865 comps 3 3 10-APR-2009 00:03:50 IMAGR Total Cleaned flux density = 15.328 Jy 28676 comps 3 2 10-APR-2009 00:03:50 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:03:50 IMAGR I Polarization model processed 3 4 10-APR-2009 00:03:55 IMAGR Field 1 min = -2.6 MilliJy,max = 2.6 MilliJy 3 2 10-APR-2009 00:03:58 IMAGR BGC Clean: using 103 cell beam + residuals > 1.63 MilliJy 3 2 10-APR-2009 00:04:00 IMAGR 185 Residual map points loaded 3 4 10-APR-2009 00:04:01 IMAGR Field 1 min algorithm flux= 1.641 MilliJy iter= 3643 3 3 10-APR-2009 00:04:01 IMAGR Field 1 Clean flux density= 14.909 Jy 3643 comps 3 3 10-APR-2009 00:04:01 IMAGR Total Cleaned flux density = 15.330 Jy 28800 comps 3 2 10-APR-2009 00:04:01 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:04:01 IMAGR I Polarization model processed 3 4 10-APR-2009 00:04:05 IMAGR Field 7 min = -3.3 MilliJy,max = 4.3 MilliJy 3 2 10-APR-2009 00:04:08 IMAGR BGC Clean: using 103 cell beam + residuals > 1.61 MilliJy 3 2 10-APR-2009 00:04:10 IMAGR 988 Residual map points loaded 3 4 10-APR-2009 00:04:11 IMAGR Field 7 min algorithm flux= 1.630 MilliJy iter= 4834 3 3 10-APR-2009 00:04:11 IMAGR Field 7 Clean flux density= 135.659 MilliJy 4834 comps 3 3 10-APR-2009 00:04:11 IMAGR Total Cleaned flux density = 15.336 Jy 29176 comps 3 2 10-APR-2009 00:04:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:04:11 IMAGR I Polarization model processed 3 4 10-APR-2009 00:04:17 IMAGR Field 6 min = -3.2 MilliJy,max = 3.6 MilliJy 3 2 10-APR-2009 00:04:19 IMAGR BGC Clean: using 103 cell beam + residuals > 1.59 MilliJy 3 2 10-APR-2009 00:04:21 IMAGR 567 Residual map points loaded 3 4 10-APR-2009 00:04:22 IMAGR Field 6 min algorithm flux= 1.603 MilliJy iter= 4383 3 3 10-APR-2009 00:04:22 IMAGR Field 6 Clean flux density= 14.661 MilliJy 4383 comps 3 3 10-APR-2009 00:04:22 IMAGR Total Cleaned flux density = 15.338 Jy 29458 comps 3 2 10-APR-2009 00:04:22 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:04:22 IMAGR I Polarization model processed 3 4 10-APR-2009 00:04:26 IMAGR Field 2 min = -3.2 MilliJy,max = 3.6 MilliJy 3 2 10-APR-2009 00:04:29 IMAGR BGC Clean: using 103 cell beam + residuals > 1.56 MilliJy 3 2 10-APR-2009 00:04:30 IMAGR 983 Residual map points loaded 3 4 10-APR-2009 00:04:30 IMAGR Field 2 min algorithm flux= 1.581 MilliJy iter= 5023 3 3 10-APR-2009 00:04:30 IMAGR Field 2 Clean flux density= 110.207 MilliJy 5023 comps 3 3 10-APR-2009 00:04:30 IMAGR Total Cleaned flux density = 15.338 Jy 29836 comps 3 2 10-APR-2009 00:04:31 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:04:31 IMAGR I Polarization model processed 3 4 10-APR-2009 00:04:38 IMAGR Field 4 min = -3.8 MilliJy,max = 4.3 MilliJy 3 2 10-APR-2009 00:04:41 IMAGR BGC Clean: using 103 cell beam + residuals > 1.54 MilliJy 3 2 10-APR-2009 00:04:42 IMAGR 724 Residual map points loaded 3 4 10-APR-2009 00:04:42 IMAGR Field 4 min algorithm flux= 1.556 MilliJy iter= 4111 3 3 10-APR-2009 00:04:42 IMAGR Field 4 Clean flux density= 80.870 MilliJy 4111 comps 3 3 10-APR-2009 00:04:42 IMAGR Total Cleaned flux density = 15.338 Jy 30146 comps 3 2 10-APR-2009 00:04:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:04:42 IMAGR I Polarization model processed 3 4 10-APR-2009 00:04:47 IMAGR Field 3 min = -3.2 MilliJy,max = 3.2 MilliJy 3 2 10-APR-2009 00:04:50 IMAGR BGC Clean: using 103 cell beam + residuals > 1.52 MilliJy 3 2 10-APR-2009 00:04:51 IMAGR 641 Residual map points loaded 3 4 10-APR-2009 00:04:51 IMAGR Field 3 min algorithm flux= 1.535 MilliJy iter= 4596 3 3 10-APR-2009 00:04:51 IMAGR Field 3 Clean flux density= -10.703 MilliJy 4596 comps 3 3 10-APR-2009 00:04:51 IMAGR Total Cleaned flux density = 15.343 Jy 30455 comps 3 2 10-APR-2009 00:04:51 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:04:51 IMAGR I Polarization model processed 3 4 10-APR-2009 00:04:56 IMAGR Field 5 min = -3.7 MilliJy,max = 3.8 MilliJy 3 2 10-APR-2009 00:04:58 IMAGR BGC Clean: using 103 cell beam + residuals > 1.50 MilliJy 3 2 10-APR-2009 00:04:59 IMAGR 862 Residual map points loaded 3 4 10-APR-2009 00:04:59 IMAGR Field 5 min algorithm flux= 1.519 MilliJy iter= 4240 3 3 10-APR-2009 00:04:59 IMAGR Field 5 Clean flux density= 105.165 MilliJy 4240 comps 3 3 10-APR-2009 00:04:59 IMAGR Total Cleaned flux density = 15.344 Jy 30830 comps 3 2 10-APR-2009 00:04:59 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:04:59 IMAGR I Polarization model processed 3 4 10-APR-2009 00:05:04 IMAGR Field 1 min = -2.4 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:05:07 IMAGR BGC Clean: using 103 cell beam + residuals > 1.49 MilliJy 3 2 10-APR-2009 00:05:10 IMAGR 174 Residual map points loaded 3 4 10-APR-2009 00:05:10 IMAGR Field 1 min algorithm flux= 1.496 MilliJy iter= 3769 3 3 10-APR-2009 00:05:10 IMAGR Field 1 Clean flux density= 14.909 Jy 3769 comps 3 3 10-APR-2009 00:05:10 IMAGR Total Cleaned flux density = 15.344 Jy 30956 comps 3 2 10-APR-2009 00:05:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:05:10 IMAGR I Polarization model processed 3 4 10-APR-2009 00:05:13 IMAGR Field 7 min = -3.0 MilliJy,max = 4.0 MilliJy 3 2 10-APR-2009 00:05:16 IMAGR BGC Clean: using 103 cell beam + residuals > 1.47 MilliJy 3 2 10-APR-2009 00:05:20 IMAGR 938 Residual map points loaded 3 4 10-APR-2009 00:05:20 IMAGR Field 7 min algorithm flux= -1.484 MilliJy iter= 5208 3 3 10-APR-2009 00:05:20 IMAGR Field 7 Clean flux density= 136.605 MilliJy 5208 comps 3 3 10-APR-2009 00:05:20 IMAGR Total Cleaned flux density = 15.345 Jy 31330 comps 3 2 10-APR-2009 00:05:20 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:05:20 IMAGR I Polarization model processed 3 4 10-APR-2009 00:05:25 IMAGR Field 6 min = -3.0 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:05:28 IMAGR BGC Clean: using 103 cell beam + residuals > 1.45 MilliJy 3 2 10-APR-2009 00:05:29 IMAGR 580 Residual map points loaded 3 4 10-APR-2009 00:05:29 IMAGR Field 6 min algorithm flux= 1.461 MilliJy iter= 4677 3 3 10-APR-2009 00:05:29 IMAGR Field 6 Clean flux density= 15.541 MilliJy 4677 comps 3 3 10-APR-2009 00:05:29 IMAGR Total Cleaned flux density = 15.346 Jy 31624 comps 3 2 10-APR-2009 00:05:29 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:05:29 IMAGR I Polarization model processed 3 4 10-APR-2009 00:05:33 IMAGR Field 2 min = -3.0 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:05:36 IMAGR BGC Clean: using 103 cell beam + residuals > 1.42 MilliJy 3 2 10-APR-2009 00:05:37 IMAGR 972 Residual map points loaded 3 4 10-APR-2009 00:05:37 IMAGR Field 2 min algorithm flux= 1.441 MilliJy iter= 5406 3 3 10-APR-2009 00:05:37 IMAGR Field 2 Clean flux density= 111.529 MilliJy 5406 comps 3 3 10-APR-2009 00:05:37 IMAGR Total Cleaned flux density = 15.348 Jy 32007 comps 3 2 10-APR-2009 00:05:37 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:05:37 IMAGR I Polarization model processed 3 4 10-APR-2009 00:05:42 IMAGR Field 4 min = -3.7 MilliJy,max = 4.1 MilliJy 3 2 10-APR-2009 00:05:45 IMAGR BGC Clean: using 103 cell beam + residuals > 1.40 MilliJy 3 2 10-APR-2009 00:05:49 IMAGR 800 Residual map points loaded 3 4 10-APR-2009 00:05:50 IMAGR Field 4 min algorithm flux= 1.421 MilliJy iter= 4466 3 3 10-APR-2009 00:05:50 IMAGR Field 4 Clean flux density= 81.328 MilliJy 4466 comps 3 3 10-APR-2009 00:05:50 IMAGR Total Cleaned flux density = 15.348 Jy 32362 comps 3 2 10-APR-2009 00:05:51 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:05:51 IMAGR I Polarization model processed 3 4 10-APR-2009 00:05:56 IMAGR Field 3 min = -3.0 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:05:59 IMAGR BGC Clean: using 103 cell beam + residuals > 1.39 MilliJy 3 2 10-APR-2009 00:05:59 IMAGR 666 Residual map points loaded 3 4 10-APR-2009 00:05:59 IMAGR Field 3 min algorithm flux= -1.402 MilliJy iter= 4917 3 3 10-APR-2009 00:05:59 IMAGR Field 3 Clean flux density= -6.793 MilliJy 4917 comps 3 3 10-APR-2009 00:05:59 IMAGR Total Cleaned flux density = 15.352 Jy 32683 comps 3 2 10-APR-2009 00:05:59 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:05:59 IMAGR I Polarization model processed 3 4 10-APR-2009 00:06:04 IMAGR Field 5 min = -3.6 MilliJy,max = 3.7 MilliJy 3 2 10-APR-2009 00:06:14 IMAGR BGC Clean: using 103 cell beam + residuals > 1.37 MilliJy 3 2 10-APR-2009 00:06:15 IMAGR 685 Residual map points loaded 3 4 10-APR-2009 00:06:16 IMAGR Field 5 min algorithm flux= 1.381 MilliJy iter= 4555 3 3 10-APR-2009 00:06:16 IMAGR Field 5 Clean flux density= 106.037 MilliJy 4555 comps 3 3 10-APR-2009 00:06:16 IMAGR Total Cleaned flux density = 15.353 Jy 32998 comps 3 2 10-APR-2009 00:06:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:06:16 IMAGR I Polarization model processed 3 4 10-APR-2009 00:06:21 IMAGR Field 1 min = -2.1 MilliJy,max = 2.1 MilliJy 3 2 10-APR-2009 00:06:24 IMAGR BGC Clean: using 103 cell beam + residuals > 1.36 MilliJy 3 2 10-APR-2009 00:06:25 IMAGR 164 Residual map points loaded 3 4 10-APR-2009 00:06:25 IMAGR Field 1 min algorithm flux= 1.364 MilliJy iter= 3880 3 3 10-APR-2009 00:06:25 IMAGR Field 1 Clean flux density= 14.908 Jy 3880 comps 3 3 10-APR-2009 00:06:25 IMAGR Total Cleaned flux density = 15.352 Jy 33109 comps 3 2 10-APR-2009 00:06:25 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:06:25 IMAGR I Polarization model processed 3 4 10-APR-2009 00:06:29 IMAGR Field 7 min = -2.9 MilliJy,max = 3.9 MilliJy 3 2 10-APR-2009 00:06:31 IMAGR BGC Clean: using 103 cell beam + residuals > 1.34 MilliJy 3 2 10-APR-2009 00:06:34 IMAGR 1138 Residual map points loaded 3 4 10-APR-2009 00:06:34 IMAGR Field 7 min algorithm flux= -1.355 MilliJy iter= 5633 3 3 10-APR-2009 00:06:34 IMAGR Field 7 Clean flux density= 138.480 MilliJy 5633 comps 3 3 10-APR-2009 00:06:34 IMAGR Total Cleaned flux density = 15.354 Jy 33534 comps 3 2 10-APR-2009 00:06:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:06:34 IMAGR I Polarization model processed 3 4 10-APR-2009 00:06:39 IMAGR Field 6 min = -2.9 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:06:42 IMAGR BGC Clean: using 103 cell beam + residuals > 1.32 MilliJy 3 2 10-APR-2009 00:06:45 IMAGR 637 Residual map points loaded 3 4 10-APR-2009 00:06:45 IMAGR Field 6 min algorithm flux= 1.334 MilliJy iter= 4992 3 3 10-APR-2009 00:06:45 IMAGR Field 6 Clean flux density= 16.450 MilliJy 4992 comps 3 3 10-APR-2009 00:06:45 IMAGR Total Cleaned flux density = 15.355 Jy 33849 comps 3 2 10-APR-2009 00:06:45 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:06:45 IMAGR I Polarization model processed 3 4 10-APR-2009 00:06:51 IMAGR Field 2 min = -2.9 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:06:55 IMAGR BGC Clean: using 103 cell beam + residuals > 1.30 MilliJy 3 2 10-APR-2009 00:06:56 IMAGR 1042 Residual map points loaded 3 4 10-APR-2009 00:06:56 IMAGR Field 2 min algorithm flux= -1.316 MilliJy iter= 5809 3 3 10-APR-2009 00:06:56 IMAGR Field 2 Clean flux density= 112.466 MilliJy 5809 comps 3 3 10-APR-2009 00:06:56 IMAGR Total Cleaned flux density = 15.356 Jy 34252 comps 3 2 10-APR-2009 00:06:57 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:06:57 IMAGR I Polarization model processed 3 4 10-APR-2009 00:07:02 IMAGR Field 4 min = -3.6 MilliJy,max = 3.9 MilliJy 3 2 10-APR-2009 00:07:04 IMAGR BGC Clean: using 103 cell beam + residuals > 1.28 MilliJy 3 2 10-APR-2009 00:07:05 IMAGR 800 Residual map points loaded 3 4 10-APR-2009 00:07:06 IMAGR Field 4 min algorithm flux= -1.296 MilliJy iter= 4831 3 3 10-APR-2009 00:07:06 IMAGR Field 4 Clean flux density= 82.788 MilliJy 4831 comps 3 3 10-APR-2009 00:07:06 IMAGR Total Cleaned flux density = 15.358 Jy 34617 comps 3 2 10-APR-2009 00:07:06 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:07:06 IMAGR I Polarization model processed 3 4 10-APR-2009 00:07:11 IMAGR Field 3 min = -2.9 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:07:13 IMAGR BGC Clean: using 103 cell beam + residuals > 1.26 MilliJy 3 2 10-APR-2009 00:07:16 IMAGR 706 Residual map points loaded 3 4 10-APR-2009 00:07:16 IMAGR Field 3 min algorithm flux= -1.278 MilliJy iter= 5263 3 3 10-APR-2009 00:07:16 IMAGR Field 3 Clean flux density= -6.552 MilliJy 5263 comps 3 3 10-APR-2009 00:07:16 IMAGR Total Cleaned flux density = 15.358 Jy 34963 comps 3 2 10-APR-2009 00:07:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:07:16 IMAGR I Polarization model processed 3 4 10-APR-2009 00:07:21 IMAGR Field 5 min = -3.5 MilliJy,max = 3.5 MilliJy 3 2 10-APR-2009 00:07:23 IMAGR BGC Clean: using 103 cell beam + residuals > 1.25 MilliJy 3 2 10-APR-2009 00:07:25 IMAGR 870 Residual map points loaded 3 4 10-APR-2009 00:07:25 IMAGR Field 5 min algorithm flux= 1.264 MilliJy iter= 4926 3 3 10-APR-2009 00:07:25 IMAGR Field 5 Clean flux density= 102.967 MilliJy 4926 comps 3 3 10-APR-2009 00:07:25 IMAGR Total Cleaned flux density = 15.355 Jy 35334 comps 3 2 10-APR-2009 00:07:25 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:07:25 IMAGR I Polarization model processed 3 4 10-APR-2009 00:07:30 IMAGR Field 1 min = -2.0 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:07:33 IMAGR BGC Clean: using 103 cell beam + residuals > 1.24 MilliJy 3 2 10-APR-2009 00:07:35 IMAGR 113 Residual map points loaded 3 4 10-APR-2009 00:07:36 IMAGR Field 1 min algorithm flux= -1.246 MilliJy iter= 3963 3 3 10-APR-2009 00:07:36 IMAGR Field 1 Clean flux density= 14.908 Jy 3963 comps 3 3 10-APR-2009 00:07:36 IMAGR Total Cleaned flux density = 15.355 Jy 35417 comps 3 2 10-APR-2009 00:07:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:07:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:07:40 IMAGR Field 7 min = -2.7 MilliJy,max = 3.7 MilliJy 3 2 10-APR-2009 00:07:42 IMAGR BGC Clean: using 103 cell beam + residuals > 1.22 MilliJy 3 2 10-APR-2009 00:07:46 IMAGR 1073 Residual map points loaded 3 4 10-APR-2009 00:07:46 IMAGR Field 7 min algorithm flux= 1.238 MilliJy iter= 6037 3 3 10-APR-2009 00:07:46 IMAGR Field 7 Clean flux density= 139.464 MilliJy 6037 comps 3 3 10-APR-2009 00:07:46 IMAGR Total Cleaned flux density = 15.356 Jy 35821 comps 3 2 10-APR-2009 00:07:46 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:07:46 IMAGR I Polarization model processed 3 4 10-APR-2009 00:07:51 IMAGR Field 6 min = -2.7 MilliJy,max = 2.8 MilliJy 3 2 10-APR-2009 00:07:53 IMAGR BGC Clean: using 103 cell beam + residuals > 1.21 MilliJy 3 2 10-APR-2009 00:07:57 IMAGR 680 Residual map points loaded 3 4 10-APR-2009 00:07:57 IMAGR Field 6 min algorithm flux= 1.219 MilliJy iter= 5331 3 3 10-APR-2009 00:07:57 IMAGR Field 6 Clean flux density= 15.799 MilliJy 5331 comps 3 3 10-APR-2009 00:07:57 IMAGR Total Cleaned flux density = 15.355 Jy 36160 comps 3 2 10-APR-2009 00:07:57 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:07:57 IMAGR I Polarization model processed 3 4 10-APR-2009 00:08:01 IMAGR Field 2 min = -2.9 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:08:04 IMAGR BGC Clean: using 103 cell beam + residuals > 1.19 MilliJy 3 2 10-APR-2009 00:08:06 IMAGR 1128 Residual map points loaded 3 4 10-APR-2009 00:08:06 IMAGR Field 2 min algorithm flux= -1.203 MilliJy iter= 6233 3 3 10-APR-2009 00:08:06 IMAGR Field 2 Clean flux density= 114.918 MilliJy 6233 comps 3 3 10-APR-2009 00:08:06 IMAGR Total Cleaned flux density = 15.357 Jy 36584 comps 3 2 10-APR-2009 00:08:06 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:08:06 IMAGR I Polarization model processed 3 4 10-APR-2009 00:08:11 IMAGR Field 4 min = -3.4 MilliJy,max = 3.6 MilliJy 3 2 10-APR-2009 00:08:14 IMAGR BGC Clean: using 103 cell beam + residuals > 1.17 MilliJy 3 2 10-APR-2009 00:08:16 IMAGR 880 Residual map points loaded 3 4 10-APR-2009 00:08:17 IMAGR Field 4 min algorithm flux= 1.185 MilliJy iter= 5202 3 3 10-APR-2009 00:08:17 IMAGR Field 4 Clean flux density= 83.637 MilliJy 5202 comps 3 3 10-APR-2009 00:08:17 IMAGR Total Cleaned flux density = 15.358 Jy 36955 comps 3 2 10-APR-2009 00:08:17 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:08:17 IMAGR I Polarization model processed 3 4 10-APR-2009 00:08:21 IMAGR Field 3 min = -2.8 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:08:24 IMAGR BGC Clean: using 103 cell beam + residuals > 1.16 MilliJy 3 2 10-APR-2009 00:08:25 IMAGR 643 Residual map points loaded 3 4 10-APR-2009 00:08:26 IMAGR Field 3 min algorithm flux= -1.169 MilliJy iter= 5593 3 3 10-APR-2009 00:08:26 IMAGR Field 3 Clean flux density= -6.269 MilliJy 5593 comps 3 3 10-APR-2009 00:08:26 IMAGR Total Cleaned flux density = 15.359 Jy 37285 comps 3 2 10-APR-2009 00:08:26 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:08:26 IMAGR I Polarization model processed 3 4 10-APR-2009 00:08:30 IMAGR Field 5 min = -3.4 MilliJy,max = 3.6 MilliJy 3 2 10-APR-2009 00:08:33 IMAGR BGC Clean: using 103 cell beam + residuals > 1.14 MilliJy 3 2 10-APR-2009 00:08:36 IMAGR 853 Residual map points loaded 3 4 10-APR-2009 00:08:36 IMAGR Field 5 min algorithm flux= -1.155 MilliJy iter= 5319 3 3 10-APR-2009 00:08:36 IMAGR Field 5 Clean flux density= 103.606 MilliJy 5319 comps 3 3 10-APR-2009 00:08:36 IMAGR Total Cleaned flux density = 15.359 Jy 37678 comps 3 2 10-APR-2009 00:08:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:08:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:08:41 IMAGR Field 1 min = -1.8 MilliJy,max = 1.8 MilliJy 3 2 10-APR-2009 00:08:43 IMAGR BGC Clean: using 103 cell beam + residuals > 1.14 MilliJy 3 2 10-APR-2009 00:08:47 IMAGR 136 Residual map points loaded 3 4 10-APR-2009 00:08:47 IMAGR Field 1 min algorithm flux= -1.140 MilliJy iter= 4058 3 3 10-APR-2009 00:08:47 IMAGR Field 1 Clean flux density= 14.908 Jy 4058 comps 3 3 10-APR-2009 00:08:47 IMAGR Total Cleaned flux density = 15.359 Jy 37773 comps 3 2 10-APR-2009 00:08:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:08:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:08:51 IMAGR Field 7 min = -2.6 MilliJy,max = 3.5 MilliJy 3 2 10-APR-2009 00:08:54 IMAGR BGC Clean: using 103 cell beam + residuals > 1.12 MilliJy 3 2 10-APR-2009 00:08:55 IMAGR 1179 Residual map points loaded 3 4 10-APR-2009 00:08:55 IMAGR Field 7 min algorithm flux= -1.133 MilliJy iter= 6484 3 3 10-APR-2009 00:08:55 IMAGR Field 7 Clean flux density= 141.429 MilliJy 6484 comps 3 3 10-APR-2009 00:08:55 IMAGR Total Cleaned flux density = 15.361 Jy 38220 comps 3 2 10-APR-2009 00:08:55 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:08:55 IMAGR I Polarization model processed 3 4 10-APR-2009 00:09:01 IMAGR Field 6 min = -2.6 MilliJy,max = 2.7 MilliJy 3 2 10-APR-2009 00:09:04 IMAGR BGC Clean: using 103 cell beam + residuals > 1.10 MilliJy 3 2 10-APR-2009 00:09:07 IMAGR 615 Residual map points loaded 3 4 10-APR-2009 00:09:07 IMAGR Field 6 min algorithm flux= 1.115 MilliJy iter= 5648 3 3 10-APR-2009 00:09:07 IMAGR Field 6 Clean flux density= 17.913 MilliJy 5648 comps 3 3 10-APR-2009 00:09:07 IMAGR Total Cleaned flux density = 15.364 Jy 38537 comps 3 2 10-APR-2009 00:09:07 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:09:07 IMAGR I Polarization model processed 3 4 10-APR-2009 00:09:11 IMAGR Field 2 min = -2.8 MilliJy,max = 2.8 MilliJy 3 2 10-APR-2009 00:09:14 IMAGR BGC Clean: using 103 cell beam + residuals > 1.09 MilliJy 3 2 10-APR-2009 00:09:18 IMAGR 1123 Residual map points loaded 3 4 10-APR-2009 00:09:18 IMAGR Field 2 min algorithm flux= -1.101 MilliJy iter= 6674 3 3 10-APR-2009 00:09:18 IMAGR Field 2 Clean flux density= 109.859 MilliJy 6674 comps 3 3 10-APR-2009 00:09:18 IMAGR Total Cleaned flux density = 15.359 Jy 38978 comps 3 2 10-APR-2009 00:09:18 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:09:18 IMAGR I Polarization model processed 3 4 10-APR-2009 00:09:24 IMAGR Field 4 min = -3.3 MilliJy,max = 3.5 MilliJy 3 2 10-APR-2009 00:09:26 IMAGR BGC Clean: using 103 cell beam + residuals > 1.07 MilliJy 3 2 10-APR-2009 00:09:28 IMAGR 884 Residual map points loaded 3 4 10-APR-2009 00:09:28 IMAGR Field 4 min algorithm flux= -1.084 MilliJy iter= 5583 3 3 10-APR-2009 00:09:28 IMAGR Field 4 Clean flux density= 83.946 MilliJy 5583 comps 3 3 10-APR-2009 00:09:28 IMAGR Total Cleaned flux density = 15.359 Jy 39359 comps 3 2 10-APR-2009 00:09:28 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:09:28 IMAGR I Polarization model processed 3 4 10-APR-2009 00:09:33 IMAGR Field 3 min = -2.7 MilliJy,max = 2.8 MilliJy 3 2 10-APR-2009 00:09:36 IMAGR BGC Clean: using 103 cell beam + residuals > 1.06 MilliJy 3 2 10-APR-2009 00:09:39 IMAGR 645 Residual map points loaded 3 4 10-APR-2009 00:09:40 IMAGR Field 3 min algorithm flux= 1.070 MilliJy iter= 5916 3 3 10-APR-2009 00:09:40 IMAGR Field 3 Clean flux density= -5.023 MilliJy 5916 comps 3 3 10-APR-2009 00:09:40 IMAGR Total Cleaned flux density = 15.360 Jy 39682 comps 3 2 10-APR-2009 00:09:40 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:09:40 IMAGR I Polarization model processed 3 4 10-APR-2009 00:09:44 IMAGR Field 5 min = -3.4 MilliJy,max = 3.4 MilliJy 3 2 10-APR-2009 00:09:47 IMAGR BGC Clean: using 103 cell beam + residuals > 1.05 MilliJy 3 2 10-APR-2009 00:09:50 IMAGR 928 Residual map points loaded 3 4 10-APR-2009 00:09:50 IMAGR Field 5 min algorithm flux= -1.058 MilliJy iter= 5713 3 3 10-APR-2009 00:09:50 IMAGR Field 5 Clean flux density= 102.282 MilliJy 5713 comps 3 3 10-APR-2009 00:09:50 IMAGR Total Cleaned flux density = 15.359 Jy 40076 comps 3 2 10-APR-2009 00:09:50 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:09:50 IMAGR I Polarization model processed 3 4 10-APR-2009 00:09:55 IMAGR Field 1 min = -1.6 MilliJy,max = 1.6 MilliJy 3 2 10-APR-2009 00:09:58 IMAGR BGC Clean: using 103 cell beam + residuals > 1.04 MilliJy 3 2 10-APR-2009 00:10:00 IMAGR 142 Residual map points loaded 3 4 10-APR-2009 00:10:00 IMAGR Field 1 min algorithm flux= -1.044 MilliJy iter= 4159 3 3 10-APR-2009 00:10:00 IMAGR Field 1 Clean flux density= 14.909 Jy 4159 comps 3 3 10-APR-2009 00:10:00 IMAGR Total Cleaned flux density = 15.359 Jy 40177 comps 3 2 10-APR-2009 00:10:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:10:00 IMAGR I Polarization model processed 3 4 10-APR-2009 00:10:03 IMAGR Field 7 min = -2.6 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:10:06 IMAGR BGC Clean: using 103 cell beam + residuals > 1.02 MilliJy 3 2 10-APR-2009 00:10:08 IMAGR 1274 Residual map points loaded 3 4 10-APR-2009 00:10:09 IMAGR Field 7 min algorithm flux= -1.038 MilliJy iter= 6966 3 3 10-APR-2009 00:10:09 IMAGR Field 7 Clean flux density= 146.505 MilliJy 6966 comps 3 3 10-APR-2009 00:10:09 IMAGR Total Cleaned flux density = 15.364 Jy 40659 comps 3 2 10-APR-2009 00:10:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:10:09 IMAGR I Polarization model processed 3 4 10-APR-2009 00:10:18 IMAGR Field 6 min = -2.5 MilliJy,max = 2.6 MilliJy 3 2 10-APR-2009 00:10:20 IMAGR BGC Clean: using 103 cell beam + residuals > 1.01 MilliJy 3 2 10-APR-2009 00:10:22 IMAGR 792 Residual map points loaded 3 4 10-APR-2009 00:10:23 IMAGR Field 6 min algorithm flux= 1.023 MilliJy iter= 6032 3 3 10-APR-2009 00:10:23 IMAGR Field 6 Clean flux density= 20.214 MilliJy 6032 comps 3 3 10-APR-2009 00:10:23 IMAGR Total Cleaned flux density = 15.366 Jy 41043 comps 3 2 10-APR-2009 00:10:23 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:10:23 IMAGR I Polarization model processed 3 4 10-APR-2009 00:10:27 IMAGR Field 2 min = -2.7 MilliJy,max = 2.6 MilliJy 3 2 10-APR-2009 00:10:30 IMAGR BGC Clean: using 103 cell beam + residuals > 996.60 MicroJy 3 2 10-APR-2009 00:10:34 IMAGR 1254 Residual map points loaded 3 4 10-APR-2009 00:10:34 IMAGR Field 2 min algorithm flux= 1.009 MilliJy iter= 7153 3 3 10-APR-2009 00:10:34 IMAGR Field 2 Clean flux density= 111.060 MilliJy 7153 comps 3 3 10-APR-2009 00:10:34 IMAGR Total Cleaned flux density = 15.368 Jy 41522 comps 3 2 10-APR-2009 00:10:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:10:34 IMAGR I Polarization model processed 3 4 10-APR-2009 00:10:39 IMAGR Field 4 min = -3.2 MilliJy,max = 3.4 MilliJy 3 2 10-APR-2009 00:10:41 IMAGR BGC Clean: using 103 cell beam + residuals > 983.97 MicroJy 3 2 10-APR-2009 00:10:45 IMAGR 931 Residual map points loaded 3 4 10-APR-2009 00:10:45 IMAGR Field 4 min algorithm flux= -994.519 MicroJy iter= 5981 3 3 10-APR-2009 00:10:45 IMAGR Field 4 Clean flux density= 86.151 MilliJy 5981 comps 3 3 10-APR-2009 00:10:45 IMAGR Total Cleaned flux density = 15.370 Jy 41920 comps 3 2 10-APR-2009 00:10:45 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:10:45 IMAGR I Polarization model processed 3 4 10-APR-2009 00:10:50 IMAGR Field 3 min = -2.6 MilliJy,max = 2.7 MilliJy 3 2 10-APR-2009 00:10:53 IMAGR BGC Clean: using 103 cell beam + residuals > 973.15 MicroJy 3 2 10-APR-2009 00:10:54 IMAGR 668 Residual map points loaded 3 4 10-APR-2009 00:10:54 IMAGR Field 3 min algorithm flux= 982.279 MicroJy iter= 6263 3 3 10-APR-2009 00:10:54 IMAGR Field 3 Clean flux density= -565.228 MicroJy 6263 comps 3 3 10-APR-2009 00:10:54 IMAGR Total Cleaned flux density = 15.374 Jy 42267 comps 3 2 10-APR-2009 00:10:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:10:54 IMAGR I Polarization model processed 3 4 10-APR-2009 00:10:58 IMAGR Field 5 min = -3.3 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:11:01 IMAGR BGC Clean: using 103 cell beam + residuals > 960.62 MicroJy 3 2 10-APR-2009 00:11:02 IMAGR 894 Residual map points loaded 3 4 10-APR-2009 00:11:03 IMAGR Field 5 min algorithm flux= -970.982 MicroJy iter= 6092 3 3 10-APR-2009 00:11:03 IMAGR Field 5 Clean flux density= 100.407 MilliJy 6092 comps 3 3 10-APR-2009 00:11:03 IMAGR Total Cleaned flux density = 15.372 Jy 42646 comps 3 2 10-APR-2009 00:11:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:11:03 IMAGR I Polarization model processed 3 4 10-APR-2009 00:11:07 IMAGR Field 1 min = -1.5 MilliJy,max = 1.5 MilliJy 3 2 10-APR-2009 00:11:10 IMAGR BGC Clean: using 103 cell beam + residuals > 956.50 MicroJy 3 2 10-APR-2009 00:11:11 IMAGR 119 Residual map points loaded 3 4 10-APR-2009 00:11:11 IMAGR Field 1 min algorithm flux= -959.134 MicroJy iter= 4245 3 3 10-APR-2009 00:11:11 IMAGR Field 1 Clean flux density= 14.909 Jy 4245 comps 3 3 10-APR-2009 00:11:11 IMAGR Total Cleaned flux density = 15.373 Jy 42732 comps 3 2 10-APR-2009 00:11:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:11:11 IMAGR I Polarization model processed 3 4 10-APR-2009 00:11:16 IMAGR Field 7 min = -2.5 MilliJy,max = 3.2 MilliJy 3 2 10-APR-2009 00:11:18 IMAGR BGC Clean: using 103 cell beam + residuals > 941.34 MicroJy 3 2 10-APR-2009 00:11:22 IMAGR 1303 Residual map points loaded 3 4 10-APR-2009 00:11:22 IMAGR Field 7 min algorithm flux= 953.482 MicroJy iter= 7438 3 3 10-APR-2009 00:11:22 IMAGR Field 7 Clean flux density= 146.822 MilliJy 7438 comps 3 3 10-APR-2009 00:11:22 IMAGR Total Cleaned flux density = 15.373 Jy 43204 comps 3 2 10-APR-2009 00:11:22 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:11:22 IMAGR I Polarization model processed 3 4 10-APR-2009 00:11:28 IMAGR Field 6 min = -2.3 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:11:30 IMAGR BGC Clean: using 103 cell beam + residuals > 929.99 MicroJy 3 2 10-APR-2009 00:11:33 IMAGR 597 Residual map points loaded 3 4 10-APR-2009 00:11:33 IMAGR Field 6 min algorithm flux= -937.332 MicroJy iter= 6336 3 3 10-APR-2009 00:11:33 IMAGR Field 6 Clean flux density= 19.866 MilliJy 6336 comps 3 3 10-APR-2009 00:11:33 IMAGR Total Cleaned flux density = 15.373 Jy 43508 comps 3 2 10-APR-2009 00:11:33 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:11:33 IMAGR I Polarization model processed 3 4 10-APR-2009 00:11:38 IMAGR Field 2 min = -2.6 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:11:40 IMAGR BGC Clean: using 103 cell beam + residuals > 914.79 MicroJy 3 2 10-APR-2009 00:11:42 IMAGR 1203 Residual map points loaded 3 4 10-APR-2009 00:11:42 IMAGR Field 2 min algorithm flux= 925.709 MicroJy iter= 7605 3 3 10-APR-2009 00:11:42 IMAGR Field 2 Clean flux density= 109.323 MilliJy 7605 comps 3 3 10-APR-2009 00:11:42 IMAGR Total Cleaned flux density = 15.371 Jy 43960 comps 3 2 10-APR-2009 00:11:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:11:42 IMAGR I Polarization model processed 3 4 10-APR-2009 00:11:49 IMAGR Field 4 min = -3.1 MilliJy,max = 3.4 MilliJy 3 2 10-APR-2009 00:11:52 IMAGR BGC Clean: using 103 cell beam + residuals > 902.89 MicroJy 3 2 10-APR-2009 00:11:53 IMAGR 1148 Residual map points loaded 3 4 10-APR-2009 00:11:53 IMAGR Field 4 min algorithm flux= -913.449 MicroJy iter= 6439 3 3 10-APR-2009 00:11:53 IMAGR Field 4 Clean flux density= 88.263 MilliJy 6439 comps 3 3 10-APR-2009 00:11:53 IMAGR Total Cleaned flux density = 15.373 Jy 44418 comps 3 2 10-APR-2009 00:11:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:11:53 IMAGR I Polarization model processed 3 4 10-APR-2009 00:11:58 IMAGR Field 3 min = -2.5 MilliJy,max = 2.6 MilliJy 3 2 10-APR-2009 00:12:01 IMAGR BGC Clean: using 103 cell beam + residuals > 892.85 MicroJy 3 2 10-APR-2009 00:12:02 IMAGR 778 Residual map points loaded 3 4 10-APR-2009 00:12:03 IMAGR Field 3 min algorithm flux= -901.806 MicroJy iter= 6655 3 3 10-APR-2009 00:12:03 IMAGR Field 3 Clean flux density= 2.335 MilliJy 6655 comps 3 3 10-APR-2009 00:12:03 IMAGR Total Cleaned flux density = 15.376 Jy 44810 comps 3 2 10-APR-2009 00:12:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:12:03 IMAGR I Polarization model processed 3 4 10-APR-2009 00:12:09 IMAGR Field 5 min = -3.2 MilliJy,max = 3.2 MilliJy 3 2 10-APR-2009 00:12:12 IMAGR BGC Clean: using 103 cell beam + residuals > 881.99 MicroJy 3 2 10-APR-2009 00:12:12 IMAGR 1042 Residual map points loaded 3 4 10-APR-2009 00:12:13 IMAGR Field 5 min algorithm flux= 891.766 MicroJy iter= 6536 3 3 10-APR-2009 00:12:13 IMAGR Field 5 Clean flux density= 100.791 MilliJy 6536 comps 3 3 10-APR-2009 00:12:13 IMAGR Total Cleaned flux density = 15.377 Jy 45254 comps 3 2 10-APR-2009 00:12:13 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:12:13 IMAGR I Polarization model processed 3 4 10-APR-2009 00:12:18 IMAGR Field 1 min = -1.4 MilliJy,max = 1.4 MilliJy 3 2 10-APR-2009 00:12:22 IMAGR BGC Clean: using 103 cell beam + residuals > 878.61 MicroJy 3 2 10-APR-2009 00:12:24 IMAGR 120 Residual map points loaded 3 4 10-APR-2009 00:12:26 IMAGR Field 1 min algorithm flux= 881.050 MicroJy iter= 4338 3 3 10-APR-2009 00:12:26 IMAGR Field 1 Clean flux density= 14.910 Jy 4338 comps 3 3 10-APR-2009 00:12:26 IMAGR Total Cleaned flux density = 15.378 Jy 45347 comps 3 2 10-APR-2009 00:12:26 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:12:26 IMAGR I Polarization model processed 3 4 10-APR-2009 00:12:30 IMAGR Field 7 min = -2.5 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:12:32 IMAGR BGC Clean: using 103 cell beam + residuals > 864.58 MicroJy 3 2 10-APR-2009 00:12:34 IMAGR 1359 Residual map points loaded 3 4 10-APR-2009 00:12:34 IMAGR Field 7 min algorithm flux= 874.915 MicroJy iter= 7925 3 3 10-APR-2009 00:12:34 IMAGR Field 7 Clean flux density= 149.602 MilliJy 7925 comps 3 3 10-APR-2009 00:12:34 IMAGR Total Cleaned flux density = 15.380 Jy 45834 comps 3 2 10-APR-2009 00:12:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:12:34 IMAGR I Polarization model processed 3 4 10-APR-2009 00:12:40 IMAGR Field 6 min = -2.2 MilliJy,max = 2.2 MilliJy 3 2 10-APR-2009 00:12:43 IMAGR BGC Clean: using 103 cell beam + residuals > 855.72 MicroJy 3 2 10-APR-2009 00:12:46 IMAGR 773 Residual map points loaded 3 4 10-APR-2009 00:12:47 IMAGR Field 6 min algorithm flux= -863.596 MicroJy iter= 6716 3 3 10-APR-2009 00:12:47 IMAGR Field 6 Clean flux density= 21.874 MilliJy 6716 comps 3 3 10-APR-2009 00:12:47 IMAGR Total Cleaned flux density = 15.382 Jy 46214 comps 3 2 10-APR-2009 00:12:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:12:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:12:52 IMAGR Field 2 min = -2.5 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:12:55 IMAGR BGC Clean: using 103 cell beam + residuals > 843.58 MicroJy 3 2 10-APR-2009 00:12:57 IMAGR 1317 Residual map points loaded 3 4 10-APR-2009 00:12:58 IMAGR Field 2 min algorithm flux= -853.881 MicroJy iter= 8104 3 3 10-APR-2009 00:12:58 IMAGR Field 2 Clean flux density= 110.702 MilliJy 8104 comps 3 3 10-APR-2009 00:12:58 IMAGR Total Cleaned flux density = 15.384 Jy 46713 comps 3 2 10-APR-2009 00:12:58 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:12:58 IMAGR I Polarization model processed 3 4 10-APR-2009 00:13:03 IMAGR Field 4 min = -2.9 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:13:06 IMAGR BGC Clean: using 103 cell beam + residuals > 832.35 MicroJy 3 2 10-APR-2009 00:13:10 IMAGR 1039 Residual map points loaded 3 4 10-APR-2009 00:13:11 IMAGR Field 4 min algorithm flux= -841.054 MicroJy iter= 6883 3 3 10-APR-2009 00:13:11 IMAGR Field 4 Clean flux density= 88.578 MilliJy 6883 comps 3 3 10-APR-2009 00:13:11 IMAGR Total Cleaned flux density = 15.384 Jy 47157 comps 3 2 10-APR-2009 00:13:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:13:11 IMAGR I Polarization model processed 3 4 10-APR-2009 00:13:17 IMAGR Field 3 min = -2.5 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:13:19 IMAGR BGC Clean: using 103 cell beam + residuals > 823.28 MicroJy 3 2 10-APR-2009 00:13:22 IMAGR 738 Residual map points loaded 3 4 10-APR-2009 00:13:24 IMAGR Field 3 min algorithm flux= -830.683 MicroJy iter= 7022 3 3 10-APR-2009 00:13:24 IMAGR Field 3 Clean flux density= 3.475 MilliJy 7022 comps 3 3 10-APR-2009 00:13:24 IMAGR Total Cleaned flux density = 15.385 Jy 47524 comps 3 2 10-APR-2009 00:13:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:13:24 IMAGR I Polarization model processed 3 4 10-APR-2009 00:13:28 IMAGR Field 5 min = -3.2 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:13:31 IMAGR BGC Clean: using 103 cell beam + residuals > 812.81 MicroJy 3 2 10-APR-2009 00:13:33 IMAGR 1060 Residual map points loaded 3 4 10-APR-2009 00:13:34 IMAGR Field 5 min algorithm flux= 821.863 MicroJy iter= 6989 3 3 10-APR-2009 00:13:34 IMAGR Field 5 Clean flux density= 101.864 MilliJy 6989 comps 3 3 10-APR-2009 00:13:34 IMAGR Total Cleaned flux density = 15.386 Jy 47977 comps 3 2 10-APR-2009 00:13:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:13:34 IMAGR I Polarization model processed 3 4 10-APR-2009 00:13:39 IMAGR Field 1 min = -1.3 MilliJy,max = 1.3 MilliJy 3 2 10-APR-2009 00:13:42 IMAGR BGC Clean: using 103 cell beam + residuals > 809.66 MicroJy 3 2 10-APR-2009 00:13:44 IMAGR 109 Residual map points loaded 3 4 10-APR-2009 00:13:44 IMAGR Field 1 min algorithm flux= 811.310 MicroJy iter= 4412 3 3 10-APR-2009 00:13:44 IMAGR Field 1 Clean flux density= 14.910 Jy 4412 comps 3 3 10-APR-2009 00:13:44 IMAGR Total Cleaned flux density = 15.386 Jy 48051 comps 3 2 10-APR-2009 00:13:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:13:44 IMAGR I Polarization model processed 3 4 10-APR-2009 00:13:47 IMAGR Field 7 min = -2.4 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:13:50 IMAGR BGC Clean: using 103 cell beam + residuals > 797.67 MicroJy 3 2 10-APR-2009 00:13:52 IMAGR 1254 Residual map points loaded 3 4 10-APR-2009 00:13:52 IMAGR Field 7 min algorithm flux= -806.660 MicroJy iter= 8407 3 3 10-APR-2009 00:13:52 IMAGR Field 7 Clean flux density= 147.122 MilliJy 8407 comps 3 3 10-APR-2009 00:13:52 IMAGR Total Cleaned flux density = 15.384 Jy 48533 comps 3 2 10-APR-2009 00:13:52 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:13:52 IMAGR I Polarization model processed 3 4 10-APR-2009 00:13:57 IMAGR Field 6 min = -2.2 MilliJy,max = 2.2 MilliJy 3 2 10-APR-2009 00:13:59 IMAGR BGC Clean: using 103 cell beam + residuals > 788.30 MicroJy 3 2 10-APR-2009 00:14:01 IMAGR 749 Residual map points loaded 3 4 10-APR-2009 00:14:01 IMAGR Field 6 min algorithm flux= 795.375 MicroJy iter= 7091 3 3 10-APR-2009 00:14:01 IMAGR Field 6 Clean flux density= 22.423 MilliJy 7091 comps 3 3 10-APR-2009 00:14:01 IMAGR Total Cleaned flux density = 15.384 Jy 48908 comps 3 2 10-APR-2009 00:14:01 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:14:01 IMAGR I Polarization model processed 3 4 10-APR-2009 00:14:06 IMAGR Field 2 min = -2.4 MilliJy,max = 2.2 MilliJy 3 2 10-APR-2009 00:14:09 IMAGR BGC Clean: using 103 cell beam + residuals > 776.14 MicroJy 3 2 10-APR-2009 00:14:12 IMAGR 1408 Residual map points loaded 3 4 10-APR-2009 00:14:12 IMAGR Field 2 min algorithm flux= -784.873 MicroJy iter= 8598 3 3 10-APR-2009 00:14:12 IMAGR Field 2 Clean flux density= 112.971 MilliJy 8598 comps 3 3 10-APR-2009 00:14:12 IMAGR Total Cleaned flux density = 15.387 Jy 49402 comps 3 2 10-APR-2009 00:14:12 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:14:12 IMAGR I Polarization model processed 3 4 10-APR-2009 00:14:19 IMAGR Field 4 min = -2.9 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:14:21 IMAGR BGC Clean: using 103 cell beam + residuals > 766.38 MicroJy 3 2 10-APR-2009 00:14:22 IMAGR 1061 Residual map points loaded 3 4 10-APR-2009 00:14:23 IMAGR Field 4 min algorithm flux= 774.351 MicroJy iter= 7336 3 3 10-APR-2009 00:14:23 IMAGR Field 4 Clean flux density= 92.014 MilliJy 7336 comps 3 3 10-APR-2009 00:14:24 IMAGR Total Cleaned flux density = 15.390 Jy 49855 comps 3 2 10-APR-2009 00:14:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:14:24 IMAGR I Polarization model processed 3 4 10-APR-2009 00:14:30 IMAGR Field 3 min = -2.4 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:14:33 IMAGR BGC Clean: using 103 cell beam + residuals > 758.71 MicroJy 3 2 10-APR-2009 00:14:35 IMAGR 820 Residual map points loaded 3 4 10-APR-2009 00:14:35 IMAGR Field 3 min algorithm flux= -765.526 MicroJy iter= 7418 3 3 10-APR-2009 00:14:35 IMAGR Field 3 Clean flux density= 7.256 MilliJy 7418 comps 3 3 10-APR-2009 00:14:36 IMAGR Total Cleaned flux density = 15.394 Jy 50251 comps 3 2 10-APR-2009 00:14:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:14:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:14:41 IMAGR Field 5 min = -3.2 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:14:44 IMAGR BGC Clean: using 103 cell beam + residuals > 749.30 MicroJy 3 2 10-APR-2009 00:14:47 IMAGR 1108 Residual map points loaded 3 4 10-APR-2009 00:14:47 IMAGR Field 5 min algorithm flux= -757.219 MicroJy iter= 7447 3 3 10-APR-2009 00:14:47 IMAGR Field 5 Clean flux density= 99.446 MilliJy 7447 comps 3 3 10-APR-2009 00:14:47 IMAGR Total Cleaned flux density = 15.391 Jy 50709 comps 3 2 10-APR-2009 00:14:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:14:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:14:53 IMAGR Field 1 min = -1.1 MilliJy,max = 1.2 MilliJy 3 2 10-APR-2009 00:14:56 IMAGR BGC Clean: using 103 cell beam + residuals > 746.86 MicroJy 3 2 10-APR-2009 00:14:56 IMAGR 107 Residual map points loaded 3 4 10-APR-2009 00:14:56 IMAGR Field 1 min algorithm flux= -748.577 MicroJy iter= 4492 3 3 10-APR-2009 00:14:56 IMAGR Field 1 Clean flux density= 14.910 Jy 4492 comps 3 3 10-APR-2009 00:14:56 IMAGR Total Cleaned flux density = 15.391 Jy 50789 comps 3 2 10-APR-2009 00:14:56 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:14:56 IMAGR I Polarization model processed 3 4 10-APR-2009 00:15:00 IMAGR Field 7 min = -2.3 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:15:02 IMAGR BGC Clean: using 103 cell beam + residuals > 735.88 MicroJy 3 2 10-APR-2009 00:15:04 IMAGR 1667 Residual map points loaded 3 4 10-APR-2009 00:15:05 IMAGR Field 7 min algorithm flux= -745.423 MicroJy iter= 8982 3 3 10-APR-2009 00:15:05 IMAGR Field 7 Clean flux density= 148.694 MilliJy 8982 comps 3 3 10-APR-2009 00:15:05 IMAGR Total Cleaned flux density = 15.393 Jy 51364 comps 3 2 10-APR-2009 00:15:05 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:15:05 IMAGR I Polarization model processed 3 4 10-APR-2009 00:15:10 IMAGR Field 6 min = -2.1 MilliJy,max = 2.0 MilliJy 3 2 10-APR-2009 00:15:13 IMAGR BGC Clean: using 103 cell beam + residuals > 728.06 MicroJy 3 2 10-APR-2009 00:15:14 IMAGR 849 Residual map points loaded 3 4 10-APR-2009 00:15:15 IMAGR Field 6 min algorithm flux= 734.821 MicroJy iter= 7498 3 3 10-APR-2009 00:15:15 IMAGR Field 6 Clean flux density= 25.814 MilliJy 7498 comps 3 3 10-APR-2009 00:15:15 IMAGR Total Cleaned flux density = 15.396 Jy 51771 comps 3 2 10-APR-2009 00:15:15 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:15:15 IMAGR I Polarization model processed 3 4 10-APR-2009 00:15:20 IMAGR Field 2 min = -2.3 MilliJy,max = 2.1 MilliJy 3 2 10-APR-2009 00:15:22 IMAGR BGC Clean: using 103 cell beam + residuals > 717.92 MicroJy 3 2 10-APR-2009 00:15:24 IMAGR 1619 Residual map points loaded 3 4 10-APR-2009 00:15:24 IMAGR Field 2 min algorithm flux= 726.772 MicroJy iter= 9161 3 3 10-APR-2009 00:15:24 IMAGR Field 2 Clean flux density= 113.738 MilliJy 9161 comps 3 3 10-APR-2009 00:15:24 IMAGR Total Cleaned flux density = 15.397 Jy 52334 comps 3 2 10-APR-2009 00:15:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:15:24 IMAGR I Polarization model processed 3 4 10-APR-2009 00:15:30 IMAGR Field 4 min = -2.8 MilliJy,max = 3.2 MilliJy 3 2 10-APR-2009 00:15:33 IMAGR BGC Clean: using 103 cell beam + residuals > 709.81 MicroJy 3 2 10-APR-2009 00:15:35 IMAGR 1260 Residual map points loaded 3 4 10-APR-2009 00:15:36 IMAGR Field 4 min algorithm flux= -717.919 MicroJy iter= 7842 3 3 10-APR-2009 00:15:36 IMAGR Field 4 Clean flux density= 91.231 MilliJy 7842 comps 3 3 10-APR-2009 00:15:36 IMAGR Total Cleaned flux density = 15.396 Jy 52840 comps 3 2 10-APR-2009 00:15:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:15:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:15:41 IMAGR Field 3 min = -2.3 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:15:45 IMAGR BGC Clean: using 103 cell beam + residuals > 702.66 MicroJy 3 2 10-APR-2009 00:15:47 IMAGR 700 Residual map points loaded 3 4 10-APR-2009 00:15:48 IMAGR Field 3 min algorithm flux= 708.438 MicroJy iter= 7782 3 3 10-APR-2009 00:15:48 IMAGR Field 3 Clean flux density= 7.822 MilliJy 7782 comps 3 3 10-APR-2009 00:15:48 IMAGR Total Cleaned flux density = 15.397 Jy 53204 comps 3 2 10-APR-2009 00:15:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:15:48 IMAGR I Polarization model processed 3 4 10-APR-2009 00:15:53 IMAGR Field 5 min = -3.1 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:15:56 IMAGR BGC Clean: using 103 cell beam + residuals > 695.12 MicroJy 3 2 10-APR-2009 00:15:57 IMAGR 1157 Residual map points loaded 3 4 10-APR-2009 00:15:57 IMAGR Field 5 min algorithm flux= -702.562 MicroJy iter= 7926 3 3 10-APR-2009 00:15:57 IMAGR Field 5 Clean flux density= 100.255 MilliJy 7926 comps 3 3 10-APR-2009 00:15:57 IMAGR Total Cleaned flux density = 15.398 Jy 53683 comps 3 2 10-APR-2009 00:15:57 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:15:57 IMAGR I Polarization model processed 3 4 10-APR-2009 00:16:03 IMAGR Field 1 min = -1.0 MilliJy,max = 1.1 MilliJy 3 2 10-APR-2009 00:16:06 IMAGR BGC Clean: using 103 cell beam + residuals > 693.13 MicroJy 3 2 10-APR-2009 00:16:08 IMAGR 107 Residual map points loaded 3 4 10-APR-2009 00:16:08 IMAGR Field 1 min algorithm flux= -694.408 MicroJy iter= 4566 3 3 10-APR-2009 00:16:08 IMAGR Field 1 Clean flux density= 14.910 Jy 4566 comps 3 3 10-APR-2009 00:16:08 IMAGR Total Cleaned flux density = 15.398 Jy 53757 comps 3 2 10-APR-2009 00:16:08 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:16:08 IMAGR I Polarization model processed 3 4 10-APR-2009 00:16:12 IMAGR Field 7 min = -2.3 MilliJy,max = 2.7 MilliJy 3 2 10-APR-2009 00:16:14 IMAGR BGC Clean: using 103 cell beam + residuals > 682.61 MicroJy 3 2 10-APR-2009 00:16:17 IMAGR 1503 Residual map points loaded 3 4 10-APR-2009 00:16:18 IMAGR Field 7 min algorithm flux= -690.116 MicroJy iter= 9504 3 3 10-APR-2009 00:16:18 IMAGR Field 7 Clean flux density= 151.912 MilliJy 9504 comps 3 3 10-APR-2009 00:16:18 IMAGR Total Cleaned flux density = 15.401 Jy 54279 comps 3 2 10-APR-2009 00:16:20 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:16:20 IMAGR I Polarization model processed 3 4 10-APR-2009 00:16:25 IMAGR Field 6 min = -2.0 MilliJy,max = 2.0 MilliJy 3 2 10-APR-2009 00:16:28 IMAGR BGC Clean: using 103 cell beam + residuals > 675.32 MicroJy 3 2 10-APR-2009 00:16:31 IMAGR 650 Residual map points loaded 3 4 10-APR-2009 00:16:31 IMAGR Field 6 min algorithm flux= 680.383 MicroJy iter= 7856 3 3 10-APR-2009 00:16:31 IMAGR Field 6 Clean flux density= 26.130 MilliJy 7856 comps 3 3 10-APR-2009 00:16:31 IMAGR Total Cleaned flux density = 15.401 Jy 54637 comps 3 2 10-APR-2009 00:16:31 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:16:32 IMAGR I Polarization model processed 3 4 10-APR-2009 00:16:37 IMAGR Field 2 min = -2.2 MilliJy,max = 2.0 MilliJy 3 2 10-APR-2009 00:16:40 IMAGR BGC Clean: using 103 cell beam + residuals > 665.00 MicroJy 3 2 10-APR-2009 00:16:42 IMAGR 1617 Residual map points loaded 3 4 10-APR-2009 00:16:42 IMAGR Field 2 min algorithm flux= 672.608 MicroJy iter= 9711 3 3 10-APR-2009 00:16:42 IMAGR Field 2 Clean flux density= 115.222 MilliJy 9711 comps 3 3 10-APR-2009 00:16:42 IMAGR Total Cleaned flux density = 15.403 Jy 55187 comps 3 2 10-APR-2009 00:16:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:16:42 IMAGR I Polarization model processed 3 4 10-APR-2009 00:16:48 IMAGR Field 4 min = -2.8 MilliJy,max = 3.2 MilliJy 3 2 10-APR-2009 00:16:50 IMAGR BGC Clean: using 103 cell beam + residuals > 656.46 MicroJy 3 2 10-APR-2009 00:16:53 IMAGR 1273 Residual map points loaded 3 4 10-APR-2009 00:16:53 IMAGR Field 4 min algorithm flux= -663.248 MicroJy iter= 8343 3 3 10-APR-2009 00:16:53 IMAGR Field 4 Clean flux density= 90.655 MilliJy 8343 comps 3 3 10-APR-2009 00:16:53 IMAGR Total Cleaned flux density = 15.402 Jy 55688 comps 3 2 10-APR-2009 00:16:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:16:53 IMAGR I Polarization model processed 3 4 10-APR-2009 00:16:58 IMAGR Field 3 min = -2.2 MilliJy,max = 2.4 MilliJy 3 2 10-APR-2009 00:17:01 IMAGR BGC Clean: using 103 cell beam + residuals > 650.56 MicroJy 3 2 10-APR-2009 00:17:03 IMAGR 907 Residual map points loaded 3 4 10-APR-2009 00:17:03 IMAGR Field 3 min algorithm flux= -656.113 MicroJy iter= 8211 3 3 10-APR-2009 00:17:03 IMAGR Field 3 Clean flux density= 10.601 MilliJy 8211 comps 3 3 10-APR-2009 00:17:03 IMAGR Total Cleaned flux density = 15.405 Jy 56117 comps 3 2 10-APR-2009 00:17:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:17:03 IMAGR I Polarization model processed 3 4 10-APR-2009 00:17:08 IMAGR Field 5 min = -3.1 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:17:11 IMAGR BGC Clean: using 103 cell beam + residuals > 642.97 MicroJy 3 2 10-APR-2009 00:17:12 IMAGR 1322 Residual map points loaded 3 4 10-APR-2009 00:17:12 IMAGR Field 5 min algorithm flux= 650.047 MicroJy iter= 8445 3 3 10-APR-2009 00:17:12 IMAGR Field 5 Clean flux density= 101.111 MilliJy 8445 comps 3 3 10-APR-2009 00:17:12 IMAGR Total Cleaned flux density = 15.406 Jy 56636 comps 3 2 10-APR-2009 00:17:12 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:17:12 IMAGR I Polarization model processed 3 4 10-APR-2009 00:17:18 IMAGR Field 1 min = -956.3 MicroJy,max = 949.4 MicroJy 3 2 10-APR-2009 00:17:20 IMAGR BGC Clean: using 103 cell beam + residuals > 641.23 MicroJy 3 2 10-APR-2009 00:17:21 IMAGR 143 Residual map points loaded 3 4 10-APR-2009 00:17:21 IMAGR Field 1 min algorithm flux= -642.716 MicroJy iter= 4657 3 3 10-APR-2009 00:17:21 IMAGR Field 1 Clean flux density= 14.912 Jy 4657 comps 3 3 10-APR-2009 00:17:21 IMAGR Total Cleaned flux density = 15.407 Jy 56727 comps 3 2 10-APR-2009 00:17:21 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:17:21 IMAGR I Polarization model processed 3 4 10-APR-2009 00:17:25 IMAGR Field 7 min = -2.3 MilliJy,max = 2.6 MilliJy 3 2 10-APR-2009 00:17:28 IMAGR BGC Clean: using 103 cell beam + residuals > 632.72 MicroJy 3 2 10-APR-2009 00:17:30 IMAGR 1912 Residual map points loaded 3 4 10-APR-2009 00:17:30 IMAGR Field 7 min algorithm flux= 640.864 MicroJy iter= 10135 3 3 10-APR-2009 00:17:30 IMAGR Field 7 Clean flux density= 149.687 MilliJy 10135 comps 3 3 10-APR-2009 00:17:30 IMAGR Total Cleaned flux density = 15.405 Jy 57358 comps 3 2 10-APR-2009 00:17:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:17:30 IMAGR I Polarization model processed 3 4 10-APR-2009 00:17:36 IMAGR Field 6 min = -2.0 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:17:39 IMAGR BGC Clean: using 103 cell beam + residuals > 627.08 MicroJy 3 2 10-APR-2009 00:17:44 IMAGR 814 Residual map points loaded 3 4 10-APR-2009 00:17:44 IMAGR Field 6 min algorithm flux= 632.075 MicroJy iter= 8250 3 3 10-APR-2009 00:17:44 IMAGR Field 6 Clean flux density= 27.270 MilliJy 8250 comps 3 3 10-APR-2009 00:17:44 IMAGR Total Cleaned flux density = 15.406 Jy 57752 comps 3 2 10-APR-2009 00:17:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:17:44 IMAGR I Polarization model processed 3 4 10-APR-2009 00:17:49 IMAGR Field 2 min = -2.2 MilliJy,max = 2.0 MilliJy 3 2 10-APR-2009 00:17:52 IMAGR BGC Clean: using 103 cell beam + residuals > 618.60 MicroJy 3 2 10-APR-2009 00:17:54 IMAGR 1728 Residual map points loaded 3 4 10-APR-2009 00:17:54 IMAGR Field 2 min algorithm flux= -625.729 MicroJy iter= 10276 3 3 10-APR-2009 00:17:54 IMAGR Field 2 Clean flux density= 117.279 MilliJy 10276 comps 3 3 10-APR-2009 00:17:54 IMAGR Total Cleaned flux density = 15.408 Jy 58317 comps 3 2 10-APR-2009 00:17:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:17:54 IMAGR I Polarization model processed 3 4 10-APR-2009 00:18:00 IMAGR Field 4 min = -2.8 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:18:03 IMAGR BGC Clean: using 103 cell beam + residuals > 611.81 MicroJy 3 2 10-APR-2009 00:18:05 IMAGR 1299 Residual map points loaded 3 4 10-APR-2009 00:18:05 IMAGR Field 4 min algorithm flux= -617.994 MicroJy iter= 8848 3 3 10-APR-2009 00:18:05 IMAGR Field 4 Clean flux density= 90.585 MilliJy 8848 comps 3 3 10-APR-2009 00:18:05 IMAGR Total Cleaned flux density = 15.408 Jy 58822 comps 3 2 10-APR-2009 00:18:05 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:18:05 IMAGR I Polarization model processed 3 4 10-APR-2009 00:18:10 IMAGR Field 3 min = -2.2 MilliJy,max = 2.4 MilliJy 3 2 10-APR-2009 00:18:13 IMAGR BGC Clean: using 103 cell beam + residuals > 606.15 MicroJy 3 2 10-APR-2009 00:18:15 IMAGR 797 Residual map points loaded 3 4 10-APR-2009 00:18:15 IMAGR Field 3 min algorithm flux= 610.788 MicroJy iter= 8609 3 3 10-APR-2009 00:18:15 IMAGR Field 3 Clean flux density= 11.505 MilliJy 8609 comps 3 3 10-APR-2009 00:18:15 IMAGR Total Cleaned flux density = 15.409 Jy 59220 comps 3 2 10-APR-2009 00:18:15 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:18:15 IMAGR I Polarization model processed 3 4 10-APR-2009 00:18:20 IMAGR Field 5 min = -3.0 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:18:23 IMAGR BGC Clean: using 103 cell beam + residuals > 599.76 MicroJy 3 2 10-APR-2009 00:18:25 IMAGR 1264 Residual map points loaded 3 4 10-APR-2009 00:18:25 IMAGR Field 5 min algorithm flux= -605.834 MicroJy iter= 8946 3 3 10-APR-2009 00:18:25 IMAGR Field 5 Clean flux density= 101.356 MilliJy 8946 comps 3 3 10-APR-2009 00:18:25 IMAGR Total Cleaned flux density = 15.409 Jy 59721 comps 3 2 10-APR-2009 00:18:25 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:18:25 IMAGR I Polarization model processed 3 4 10-APR-2009 00:18:31 IMAGR Field 1 min = -911.1 MicroJy,max = 859.3 MicroJy 3 2 10-APR-2009 00:18:33 IMAGR BGC Clean: using 103 cell beam + residuals > 598.17 MicroJy 3 2 10-APR-2009 00:18:36 IMAGR 98 Residual map points loaded 3 4 10-APR-2009 00:18:36 IMAGR Field 1 min algorithm flux= -599.327 MicroJy iter= 4729 3 3 10-APR-2009 00:18:36 IMAGR Field 1 Clean flux density= 14.911 Jy 4729 comps 3 3 10-APR-2009 00:18:36 IMAGR Total Cleaned flux density = 15.409 Jy 59793 comps 3 2 10-APR-2009 00:18:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:18:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:18:39 IMAGR Field 7 min = -2.2 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:18:42 IMAGR BGC Clean: using 103 cell beam + residuals > 589.05 MicroJy 3 2 10-APR-2009 00:18:43 IMAGR 1773 Residual map points loaded 3 4 10-APR-2009 00:18:44 IMAGR Field 7 min algorithm flux= 595.704 MicroJy iter= 10714 3 3 10-APR-2009 00:18:44 IMAGR Field 7 Clean flux density= 151.046 MilliJy 10714 comps 3 3 10-APR-2009 00:18:44 IMAGR Total Cleaned flux density = 15.411 Jy 60372 comps 3 2 10-APR-2009 00:18:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:18:44 IMAGR I Polarization model processed 3 4 10-APR-2009 00:18:49 IMAGR Field 6 min = -1.9 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:18:52 IMAGR BGC Clean: using 103 cell beam + residuals > 583.52 MicroJy 3 2 10-APR-2009 00:18:53 IMAGR 961 Residual map points loaded 3 4 10-APR-2009 00:18:54 IMAGR Field 6 min algorithm flux= 588.436 MicroJy iter= 8697 3 3 10-APR-2009 00:18:55 IMAGR Field 6 Clean flux density= 25.917 MilliJy 8697 comps 3 3 10-APR-2009 00:18:57 IMAGR Total Cleaned flux density = 15.409 Jy 60819 comps 3 2 10-APR-2009 00:18:58 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:18:58 IMAGR I Polarization model processed 3 4 10-APR-2009 00:19:03 IMAGR Field 2 min = -2.1 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:19:06 IMAGR BGC Clean: using 103 cell beam + residuals > 575.45 MicroJy 3 2 10-APR-2009 00:19:09 IMAGR 1885 Residual map points loaded 3 4 10-APR-2009 00:19:09 IMAGR Field 2 min algorithm flux= -582.104 MicroJy iter= 10897 3 3 10-APR-2009 00:19:09 IMAGR Field 2 Clean flux density= 119.038 MilliJy 10897 comps 3 3 10-APR-2009 00:19:09 IMAGR Total Cleaned flux density = 15.411 Jy 61440 comps 3 2 10-APR-2009 00:19:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:19:09 IMAGR I Polarization model processed 3 4 10-APR-2009 00:19:15 IMAGR Field 4 min = -2.8 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:19:18 IMAGR BGC Clean: using 103 cell beam + residuals > 569.24 MicroJy 3 2 10-APR-2009 00:19:19 IMAGR 1589 Residual map points loaded 3 4 10-APR-2009 00:19:20 IMAGR Field 4 min algorithm flux= -575.527 MicroJy iter= 9414 3 3 10-APR-2009 00:19:20 IMAGR Field 4 Clean flux density= 89.795 MilliJy 9414 comps 3 3 10-APR-2009 00:19:20 IMAGR Total Cleaned flux density = 15.410 Jy 62006 comps 3 2 10-APR-2009 00:19:20 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:19:20 IMAGR I Polarization model processed 3 4 10-APR-2009 00:19:25 IMAGR Field 3 min = -2.1 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:19:28 IMAGR BGC Clean: using 103 cell beam + residuals > 564.69 MicroJy 3 2 10-APR-2009 00:19:29 IMAGR 894 Residual map points loaded 3 4 10-APR-2009 00:19:29 IMAGR Field 3 min algorithm flux= 569.272 MicroJy iter= 9045 3 3 10-APR-2009 00:19:29 IMAGR Field 3 Clean flux density= 10.698 MilliJy 9045 comps 3 3 10-APR-2009 00:19:29 IMAGR Total Cleaned flux density = 15.409 Jy 62442 comps 3 2 10-APR-2009 00:19:29 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:19:29 IMAGR I Polarization model processed 3 4 10-APR-2009 00:19:34 IMAGR Field 5 min = -3.0 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:19:37 IMAGR BGC Clean: using 103 cell beam + residuals > 559.00 MicroJy 3 2 10-APR-2009 00:19:38 IMAGR 1372 Residual map points loaded 3 4 10-APR-2009 00:19:38 IMAGR Field 5 min algorithm flux= -564.536 MicroJy iter= 9470 3 3 10-APR-2009 00:19:38 IMAGR Field 5 Clean flux density= 101.703 MilliJy 9470 comps 3 3 10-APR-2009 00:19:38 IMAGR Total Cleaned flux density = 15.410 Jy 62966 comps 3 2 10-APR-2009 00:19:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:19:38 IMAGR I Polarization model processed 3 4 10-APR-2009 00:19:46 IMAGR Field 1 min = -820.5 MicroJy,max = 833.0 MicroJy 3 2 10-APR-2009 00:19:48 IMAGR BGC Clean: using 103 cell beam + residuals > 557.68 MicroJy 3 2 10-APR-2009 00:19:51 IMAGR 107 Residual map points loaded 3 4 10-APR-2009 00:19:51 IMAGR Field 1 min algorithm flux= 558.585 MicroJy iter= 4805 3 3 10-APR-2009 00:19:51 IMAGR Field 1 Clean flux density= 14.912 Jy 4805 comps 3 3 10-APR-2009 00:19:51 IMAGR Total Cleaned flux density = 15.410 Jy 63042 comps 3 2 10-APR-2009 00:19:51 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:19:51 IMAGR I Polarization model processed 3 4 10-APR-2009 00:19:55 IMAGR Field 7 min = -2.2 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:19:58 IMAGR BGC Clean: using 103 cell beam + residuals > 550.60 MicroJy 3 2 10-APR-2009 00:20:00 IMAGR 1963 Residual map points loaded 3 4 10-APR-2009 00:20:00 IMAGR Field 7 min algorithm flux= -556.827 MicroJy iter= 11352 3 3 10-APR-2009 00:20:00 IMAGR Field 7 Clean flux density= 147.527 MilliJy 11352 comps 3 3 10-APR-2009 00:20:00 IMAGR Total Cleaned flux density = 15.407 Jy 63680 comps 3 2 10-APR-2009 00:20:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:20:00 IMAGR I Polarization model processed 3 4 10-APR-2009 00:20:06 IMAGR Field 6 min = -2.0 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:20:09 IMAGR BGC Clean: using 103 cell beam + residuals > 545.50 MicroJy 3 2 10-APR-2009 00:20:13 IMAGR 819 Residual map points loaded 3 4 10-APR-2009 00:20:13 IMAGR Field 6 min algorithm flux= -549.619 MicroJy iter= 9081 3 3 10-APR-2009 00:20:13 IMAGR Field 6 Clean flux density= 26.349 MilliJy 9081 comps 3 3 10-APR-2009 00:20:13 IMAGR Total Cleaned flux density = 15.407 Jy 64064 comps 3 2 10-APR-2009 00:20:13 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:20:13 IMAGR I Polarization model processed 3 4 10-APR-2009 00:20:18 IMAGR Field 2 min = -2.1 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:20:21 IMAGR BGC Clean: using 103 cell beam + residuals > 538.13 MicroJy 3 2 10-APR-2009 00:20:24 IMAGR 1771 Residual map points loaded 3 4 10-APR-2009 00:20:24 IMAGR Field 2 min algorithm flux= -543.832 MicroJy iter= 11463 3 3 10-APR-2009 00:20:24 IMAGR Field 2 Clean flux density= 119.552 MilliJy 11463 comps 3 3 10-APR-2009 00:20:24 IMAGR Total Cleaned flux density = 15.408 Jy 64630 comps 3 2 10-APR-2009 00:20:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:20:24 IMAGR I Polarization model processed 3 4 10-APR-2009 00:20:30 IMAGR Field 4 min = -2.7 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:20:33 IMAGR BGC Clean: using 103 cell beam + residuals > 532.05 MicroJy 3 2 10-APR-2009 00:20:34 IMAGR 1426 Residual map points loaded 3 4 10-APR-2009 00:20:34 IMAGR Field 4 min algorithm flux= 537.404 MicroJy iter= 9961 3 3 10-APR-2009 00:20:34 IMAGR Field 4 Clean flux density= 88.385 MilliJy 9961 comps 3 3 10-APR-2009 00:20:34 IMAGR Total Cleaned flux density = 15.406 Jy 65177 comps 3 2 10-APR-2009 00:20:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:20:34 IMAGR I Polarization model processed 3 4 10-APR-2009 00:20:40 IMAGR Field 3 min = -2.0 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:20:43 IMAGR BGC Clean: using 103 cell beam + residuals > 527.52 MicroJy 3 2 10-APR-2009 00:20:44 IMAGR 833 Residual map points loaded 3 4 10-APR-2009 00:20:44 IMAGR Field 3 min algorithm flux= -531.438 MicroJy iter= 9441 3 3 10-APR-2009 00:20:44 IMAGR Field 3 Clean flux density= 12.162 MilliJy 9441 comps 3 3 10-APR-2009 00:20:44 IMAGR Total Cleaned flux density = 15.408 Jy 65573 comps 3 2 10-APR-2009 00:20:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:20:44 IMAGR I Polarization model processed 3 4 10-APR-2009 00:20:50 IMAGR Field 5 min = -3.0 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:20:53 IMAGR BGC Clean: using 103 cell beam + residuals > 522.17 MicroJy 3 2 10-APR-2009 00:20:54 IMAGR 1580 Residual map points loaded 3 4 10-APR-2009 00:20:54 IMAGR Field 5 min algorithm flux= -527.475 MicroJy iter= 10042 3 3 10-APR-2009 00:20:54 IMAGR Field 5 Clean flux density= 101.050 MilliJy 10042 comps 3 3 10-APR-2009 00:20:54 IMAGR Total Cleaned flux density = 15.407 Jy 66145 comps 3 2 10-APR-2009 00:20:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:20:55 IMAGR I Polarization model processed 3 4 10-APR-2009 00:21:00 IMAGR Field 1 min = -803.7 MicroJy,max = 772.6 MicroJy 3 2 10-APR-2009 00:21:03 IMAGR BGC Clean: using 103 cell beam + residuals > 521.06 MicroJy 3 2 10-APR-2009 00:21:05 IMAGR 129 Residual map points loaded 3 4 10-APR-2009 00:21:05 IMAGR Field 1 min algorithm flux= -521.868 MicroJy iter= 4894 3 3 10-APR-2009 00:21:05 IMAGR Field 1 Clean flux density= 14.912 Jy 4894 comps 3 3 10-APR-2009 00:21:05 IMAGR Total Cleaned flux density = 15.407 Jy 66234 comps 3 2 10-APR-2009 00:21:05 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:21:05 IMAGR I Polarization model processed 3 4 10-APR-2009 00:21:08 IMAGR Field 7 min = -2.2 MilliJy,max = 2.4 MilliJy 3 2 10-APR-2009 00:21:11 IMAGR BGC Clean: using 103 cell beam + residuals > 514.05 MicroJy 3 2 10-APR-2009 00:21:12 IMAGR 2364 Residual map points loaded 3 4 10-APR-2009 00:21:12 IMAGR Field 7 min algorithm flux= -520.180 MicroJy iter= 12038 3 3 10-APR-2009 00:21:12 IMAGR Field 7 Clean flux density= 148.349 MilliJy 12038 comps 3 3 10-APR-2009 00:21:12 IMAGR Total Cleaned flux density = 15.408 Jy 66920 comps 3 2 10-APR-2009 00:21:12 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:21:12 IMAGR I Polarization model processed 3 4 10-APR-2009 00:21:18 IMAGR Field 6 min = -2.0 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:21:21 IMAGR BGC Clean: using 103 cell beam + residuals > 509.95 MicroJy 3 2 10-APR-2009 00:21:22 IMAGR 1010 Residual map points loaded 3 4 10-APR-2009 00:21:22 IMAGR Field 6 min algorithm flux= -514.340 MicroJy iter= 9544 3 3 10-APR-2009 00:21:22 IMAGR Field 6 Clean flux density= 27.470 MilliJy 9544 comps 3 3 10-APR-2009 00:21:22 IMAGR Total Cleaned flux density = 15.409 Jy 67383 comps 3 2 10-APR-2009 00:21:22 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:21:22 IMAGR I Polarization model processed 3 4 10-APR-2009 00:21:28 IMAGR Field 2 min = -2.0 MilliJy,max = 1.8 MilliJy 3 2 10-APR-2009 00:21:31 IMAGR BGC Clean: using 103 cell beam + residuals > 504.15 MicroJy 3 2 10-APR-2009 00:21:32 IMAGR 2175 Residual map points loaded 3 4 10-APR-2009 00:21:32 IMAGR Field 2 min algorithm flux= 510.209 MicroJy iter= 12160 3 3 10-APR-2009 00:21:32 IMAGR Field 2 Clean flux density= 120.908 MilliJy 12160 comps 3 3 10-APR-2009 00:21:32 IMAGR Total Cleaned flux density = 15.410 Jy 68080 comps 3 2 10-APR-2009 00:21:32 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:21:32 IMAGR I Polarization model processed 3 4 10-APR-2009 00:21:38 IMAGR Field 4 min = -2.7 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:21:41 IMAGR BGC Clean: using 103 cell beam + residuals > 499.44 MicroJy 3 2 10-APR-2009 00:21:42 IMAGR 1641 Residual map points loaded 3 4 10-APR-2009 00:21:42 IMAGR Field 4 min algorithm flux= 504.357 MicroJy iter= 10529 3 3 10-APR-2009 00:21:42 IMAGR Field 4 Clean flux density= 87.858 MilliJy 10529 comps 3 3 10-APR-2009 00:21:42 IMAGR Total Cleaned flux density = 15.410 Jy 68648 comps 3 2 10-APR-2009 00:21:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:21:42 IMAGR I Polarization model processed 3 4 10-APR-2009 00:21:48 IMAGR Field 3 min = -2.0 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:21:50 IMAGR BGC Clean: using 103 cell beam + residuals > 496.06 MicroJy 3 2 10-APR-2009 00:21:53 IMAGR 1016 Residual map points loaded 3 4 10-APR-2009 00:21:53 IMAGR Field 3 min algorithm flux= 500.231 MicroJy iter= 9905 3 3 10-APR-2009 00:21:53 IMAGR Field 3 Clean flux density= 13.587 MilliJy 9905 comps 3 3 10-APR-2009 00:21:53 IMAGR Total Cleaned flux density = 15.411 Jy 69112 comps 3 2 10-APR-2009 00:21:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:21:53 IMAGR I Polarization model processed 3 4 10-APR-2009 00:21:58 IMAGR Field 5 min = -2.9 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:22:01 IMAGR BGC Clean: using 103 cell beam + residuals > 491.40 MicroJy 3 2 10-APR-2009 00:22:03 IMAGR 1502 Residual map points loaded 3 4 10-APR-2009 00:22:03 IMAGR Field 5 min algorithm flux= 496.211 MicroJy iter= 10602 3 3 10-APR-2009 00:22:03 IMAGR Field 5 Clean flux density= 104.068 MilliJy 10602 comps 3 3 10-APR-2009 00:22:03 IMAGR Total Cleaned flux density = 15.414 Jy 69672 comps 3 2 10-APR-2009 00:22:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:22:03 IMAGR I Polarization model processed 3 4 10-APR-2009 00:22:08 IMAGR Field 1 min = -726.3 MicroJy,max = 710.9 MicroJy 3 2 10-APR-2009 00:22:11 IMAGR BGC Clean: using 103 cell beam + residuals > 490.51 MicroJy 3 2 10-APR-2009 00:22:13 IMAGR 95 Residual map points loaded 3 4 10-APR-2009 00:22:14 IMAGR Field 1 min algorithm flux= 491.164 MicroJy iter= 4961 3 3 10-APR-2009 00:22:14 IMAGR Field 1 Clean flux density= 14.912 Jy 4961 comps 3 3 10-APR-2009 00:22:14 IMAGR Total Cleaned flux density = 15.414 Jy 69739 comps 3 2 10-APR-2009 00:22:14 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:22:14 IMAGR I Polarization model processed 3 4 10-APR-2009 00:22:17 IMAGR Field 7 min = -2.1 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:22:20 IMAGR BGC Clean: using 103 cell beam + residuals > 484.35 MicroJy 3 2 10-APR-2009 00:22:22 IMAGR 2062 Residual map points loaded 3 4 10-APR-2009 00:22:22 IMAGR Field 7 Iter limit, Max resid= 504.842 MicroJy iter= 12299 3 5 10-APR-2009 00:22:22 IMAGR Field 7 Clean flux density= 147.613 MilliJy 12299 comps 3 5 10-APR-2009 00:22:22 IMAGR Total Cleaned flux density = 15.413 Jy 70000 comps 3 2 10-APR-2009 00:22:22 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:22:22 IMAGR I Polarization model processed 3 4 10-APR-2009 00:22:23 IMAGR Total Clean components 70000 reaches limit 70000 3 3 10-APR-2009 00:22:23 IMAGR Merging the Clean components files 3 3 10-APR-2009 00:22:27 IMAGR Field 1 compressed from 4961 to 3177 components 3 3 10-APR-2009 00:22:31 IMAGR Field 2 compressed from 12160 to 7019 components 3 3 10-APR-2009 00:22:33 IMAGR Field 3 compressed from 9905 to 5820 components 3 3 10-APR-2009 00:22:35 IMAGR Field 4 compressed from 10529 to 6093 components 3 3 10-APR-2009 00:22:37 IMAGR Field 5 compressed from 10602 to 6060 components 3 3 10-APR-2009 00:22:40 IMAGR Field 6 compressed from 9544 to 5734 components 3 3 10-APR-2009 00:22:42 IMAGR Field 7 compressed from 12299 to 7061 components 3 4 10-APR-2009 00:22:45 IMAGR Field 1 min = -722.3 MicroJy,max = 692.0 MicroJy 3 4 10-APR-2009 00:22:48 IMAGR Field 2 min = -2.0 MilliJy,max = 1.8 MilliJy 3 4 10-APR-2009 00:22:51 IMAGR Field 3 min = -1.9 MilliJy,max = 2.3 MilliJy 3 4 10-APR-2009 00:22:54 IMAGR Field 4 min = -2.7 MilliJy,max = 3.0 MilliJy 3 4 10-APR-2009 00:22:57 IMAGR Field 5 min = -2.9 MilliJy,max = 2.9 MilliJy 3 4 10-APR-2009 00:23:01 IMAGR Field 6 min = -1.9 MilliJy,max = 1.9 MilliJy 3 4 10-APR-2009 00:23:04 IMAGR Field 7 min = -2.1 MilliJy,max = 2.3 MilliJy 3 3 10-APR-2009 00:23:04 IMAGR Restoring Clean components 3 3 10-APR-2009 00:23:56 IMAGR Restoring overlapped Clean components 3 3 10-APR-2009 00:23:56 IMAGR Restore 69.643 MilliJy ( 210 CCs) from field 1 to field 2 3 3 10-APR-2009 00:23:56 IMAGR Restore 33.798 MilliJy ( 366 CCs) from field 1 to field 3 3 3 10-APR-2009 00:23:56 IMAGR Restore 53.984 MilliJy ( 364 CCs) from field 1 to field 4 3 3 10-APR-2009 00:23:56 IMAGR Restore 23.545 MilliJy ( 287 CCs) from field 1 to field 5 3 3 10-APR-2009 00:23:57 IMAGR Restore 78.866 MilliJy ( 433 CCs) from field 1 to field 6 3 3 10-APR-2009 00:23:57 IMAGR Restore 42.273 MilliJy ( 237 CCs) from field 1 to field 7 3 3 10-APR-2009 00:23:57 IMAGR Restore -11.836 MilliJy ( 319 CCs) from field 2 to field 1 3 3 10-APR-2009 00:23:58 IMAGR Restore -7.069 MilliJy ( 511 CCs) from field 2 to field 3 3 3 10-APR-2009 00:23:58 IMAGR Restore 1.494 MilliJy ( 371 CCs) from field 2 to field 4 3 3 10-APR-2009 00:23:58 IMAGR Restore -20.915 MilliJy ( 451 CCs) from field 3 to field 1 3 3 10-APR-2009 00:23:59 IMAGR Restore -20.866 MilliJy ( 417 CCs) from field 3 to field 2 3 3 10-APR-2009 00:23:59 IMAGR Restore 3.833 MilliJy ( 343 CCs) from field 3 to field 5 3 3 10-APR-2009 00:23:59 IMAGR Restore 17.471 MilliJy ( 313 CCs) from field 4 to field 1 3 3 10-APR-2009 00:23:59 IMAGR Restore 15.709 MilliJy ( 271 CCs) from field 4 to field 2 3 3 10-APR-2009 00:24:00 IMAGR Restore -14.347 MilliJy ( 249 CCs) from field 4 to field 6 3 3 10-APR-2009 00:24:00 IMAGR Restore 26.354 MilliJy ( 284 CCs) from field 5 to field 1 3 3 10-APR-2009 00:24:00 IMAGR Restore 17.908 MilliJy ( 190 CCs) from field 5 to field 3 3 3 10-APR-2009 00:24:00 IMAGR Restore 39.389 MilliJy ( 310 CCs) from field 5 to field 7 3 3 10-APR-2009 00:24:01 IMAGR Restore 46.204 MilliJy ( 441 CCs) from field 6 to field 1 3 3 10-APR-2009 00:24:12 IMAGR Restore 49.775 MilliJy ( 287 CCs) from field 6 to field 4 3 3 10-APR-2009 00:24:12 IMAGR Restore 26.602 MilliJy ( 407 CCs) from field 6 to field 7 3 3 10-APR-2009 00:24:15 IMAGR Restore 33.764 MilliJy ( 284 CCs) from field 7 to field 1 3 3 10-APR-2009 00:24:15 IMAGR Restore 9.054 MilliJy ( 281 CCs) from field 7 to field 5 3 3 10-APR-2009 00:24:15 IMAGR Restore 27.287 MilliJy ( 563 CCs) from field 7 to field 6 3 3 10-APR-2009 00:24:15 IMAGR Checking image max/min 3 3 10-APR-2009 00:24:17 IMAGR Field 1 final Clean flux 15.003 Jy 3 3 10-APR-2009 00:24:17 IMAGR Field 2 final Clean flux 185.394 MilliJy 3 3 10-APR-2009 00:24:17 IMAGR Field 3 final Clean flux 58.225 MilliJy 3 3 10-APR-2009 00:24:17 IMAGR Field 4 final Clean flux 193.111 MilliJy 3 3 10-APR-2009 00:24:17 IMAGR Field 5 final Clean flux 140.501 MilliJy 3 3 10-APR-2009 00:24:17 IMAGR Field 6 final Clean flux 119.277 MilliJy 3 3 10-APR-2009 00:24:17 IMAGR Field 7 final Clean flux 255.876 MilliJy 3 6 10-APR-2009 00:24:25 IMAGR Deleting UV work file: 3 4 10-APR-2009 00:24:26 IMAGR Destroyed 1 extension files of type AN 3 4 10-APR-2009 00:24:26 IMAGR Destroyed 1 extension files of type FQ 3 4 10-APR-2009 00:24:26 IMAGR Destroyed UV image file: catno= 5 disk= 1 3 3 10-APR-2009 00:24:35 IMAGR Appears to have ended successfully 3 5 10-APR-2009 00:24:35 IMAGR vlbacald-a 31DEC07 TST: Cpu= 1951.2 Real= 2706 3 2 10-APR-2009 00:24:38 AIPS Resumes 3 3 10-APR-2009 00:24:38 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:24:38 AIPS rm -f /tmp/SETFC@3C286_L,BAND.0-1 >& /dev/null 3 5 10-APR-2009 00:24:56 UVPLT Task UVPLT (release of 31DEC07) begins 3 2 10-APR-2009 00:25:00 UVPLT GFINIS: number records used 2633 3 2 10-APR-2009 00:25:00 UVPLT PLTUV: 55852 Points plotted 3 2 10-APR-2009 00:25:00 UVPLT PLTUV: Plot file version 1 created. 3 3 10-APR-2009 00:25:00 UVPLT Appears to have ended successfully 3 5 10-APR-2009 00:25:00 UVPLT vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 4 3 2 10-APR-2009 00:25:01 AIPS Resumes 3 5 10-APR-2009 00:25:01 UVPLT Task UVPLT (release of 31DEC07) begins 3 2 10-APR-2009 00:25:01 UVPLT GFINIS: number records used 1318 3 2 10-APR-2009 00:25:01 UVPLT PLTUV: 27926 Points plotted 3 2 10-APR-2009 00:25:01 UVPLT PLTUV: Plot file version 2 created. 3 3 10-APR-2009 00:25:01 UVPLT Appears to have ended successfully 3 5 10-APR-2009 00:25:01 UVPLT vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 10-APR-2009 00:25:01 AIPS Resumes 3 5 10-APR-2009 00:25:01 UVPLT Task UVPLT (release of 31DEC07) begins 3 2 10-APR-2009 00:25:02 UVPLT GFINIS: number records used 1319 3 2 10-APR-2009 00:25:02 UVPLT PLTUV: 27926 Points plotted 3 2 10-APR-2009 00:25:02 UVPLT PLTUV: Plot file version 3 created. 3 3 10-APR-2009 00:25:02 UVPLT Appears to have ended successfully 3 5 10-APR-2009 00:25:02 UVPLT vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 1 3 2 10-APR-2009 00:25:02 AIPS Resumes 3 4 10-APR-2009 00:25:02 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:25:04 AIPS Destroyed MA image file: catno= 6 disk= 1 3 4 10-APR-2009 00:25:05 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:25:08 AIPS Destroyed MA image file: catno= 7 disk= 1 3 4 10-APR-2009 00:25:08 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:25:10 AIPS Destroyed MA image file: catno= 8 disk= 1 3 4 10-APR-2009 00:25:10 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:25:13 AIPS Destroyed MA image file: catno= 9 disk= 1 3 4 10-APR-2009 00:25:13 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:25:16 AIPS Destroyed MA image file: catno= 10 disk= 1 3 4 10-APR-2009 00:25:17 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:25:19 AIPS Destroyed MA image file: catno= 11 disk= 1 3 4 10-APR-2009 00:25:21 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:25:23 AIPS Destroyed MA image file: catno= 12 disk= 1 3 2 10-APR-2009 00:25:25 AIPS Disk 1 in-CNO 13 renumbered as CNO 5 3 2 10-APR-2009 00:25:27 AIPS Disk 1 in-CNO 14 renumbered as CNO 6 3 2 10-APR-2009 00:25:29 AIPS Disk 1 in-CNO 15 renumbered as CNO 7 3 2 10-APR-2009 00:25:30 AIPS Disk 1 in-CNO 16 renumbered as CNO 8 3 2 10-APR-2009 00:25:31 AIPS Disk 1 in-CNO 17 renumbered as CNO 9 3 2 10-APR-2009 00:25:32 AIPS Disk 1 in-CNO 18 renumbered as CNO 10 3 2 10-APR-2009 00:25:34 AIPS Disk 1 in-CNO 19 renumbered as CNO 11 3 5 10-APR-2009 00:25:37 AIPS ' ' 3 5 10-APR-2009 00:25:38 AIPS 'ESTIMATED RMS:' '0.1237 MILLI JANSKY' 3 3 10-APR-2009 00:25:38 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:25:38 AIPS rm -f /tmp/SETFC@3C345_L,BAND.0-1 >& /dev/null 3 2 10-APR-2009 00:25:38 AIPS Waiting for returned adverbs 3 5 10-APR-2009 00:25:39 SETFC Task SETFC (release of 31DEC07) begins 3 3 10-APR-2009 00:25:39 SETFC Found 3C345 .L BAND.00001 Disk 1 slot 4 3 4 10-APR-2009 00:25:42 SETFC SETCEL: max baseline, W = 1.7007E+05 5.6952E+04 wavelengths 3 4 10-APR-2009 00:25:42 SETFC SETCEL: max field radius 4.9901E+02 arc seconds 3 4 10-APR-2009 00:25:42 SETFC SETCEL: recommends IMSIZE 2469 CELLSIZE 0.404283 3 4 10-APR-2009 00:25:42 SETFC SETCEL: returns IMSIZE 4096 CELLSIZE 0.244854 3 2 10-APR-2009 00:25:42 SETFC ZTXOP2: using translated file name = 3 2 10-APR-2009 00:25:42 SETFC ZTXOP2: /tmp/SETFC@3C345_L,BAND.0-1 3 4 10-APR-2009 00:25:42 SETFC FLYEYE added 7 fields to BOXFILE to 0.239 deg 3 7 10-APR-2009 00:25:42 SETFC WARNING: THIS MAY NOT COVER THE DESIRED AREA 3 4 10-APR-2009 00:25:42 SETFC First field number written was 1 3 4 10-APR-2009 00:25:42 SETFC Highest field number written was 7 3 2 10-APR-2009 00:25:42 SETFC returns adverbs to AIPS 3 3 10-APR-2009 00:25:42 SETFC Appears to have ended successfully 3 5 10-APR-2009 00:25:42 SETFC vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 3 3 2 10-APR-2009 00:25:42 AIPS Resumes 3 3 10-APR-2009 00:25:42 AIPS SETFC was not found to be running 3 5 10-APR-2009 00:25:42 AIPS 'SEARCHING FOR NVSS SOURCES' 3 2 10-APR-2009 00:25:42 AIPS Waiting for returned adverbs 3 5 10-APR-2009 00:25:42 SETFC Task SETFC (release of 31DEC07) begins 3 3 10-APR-2009 00:25:42 SETFC Found 3C345 .L BAND.00001 Disk 1 slot 4 3 2 10-APR-2009 00:25:43 SETFC ZTXOP2: using translated file name = 3 2 10-APR-2009 00:25:43 SETFC ZTXOP2: /tmp/SETFC@3C345_L,BAND.0-1 3 3 10-APR-2009 00:25:43 SETFC Searching catalog between 0.24 and 0.77 degrees radius 3 2 10-APR-2009 00:25:43 SETFC ZTXOP2: using translated file name = 3 2 10-APR-2009 00:25:43 SETFC ZTXOP2: /home/auto/aips/TEXT/STARS/NV00.0030 3 3 10-APR-2009 00:25:44 SETFC Field RA Dec Flux Beam Sep 3 3 10-APR-2009 00:25:44 SETFC 8 16:41:47.33 39:34:58.0 0.054 0.283 0.323 3 4 10-APR-2009 00:25:44 SETFC Add NVSS: wrote 1 fields to BOXFILE 3 3 10-APR-2009 00:25:44 SETFC The Sun is 106.9 deg away - ignoring 3 4 10-APR-2009 00:25:44 SETFC First field number written was 8 3 4 10-APR-2009 00:25:44 SETFC Highest field number written was 8 3 2 10-APR-2009 00:25:44 SETFC returns adverbs to AIPS 3 3 10-APR-2009 00:25:44 SETFC Appears to have ended successfully 3 5 10-APR-2009 00:25:44 SETFC vlbacald-a 31DEC07 TST: Cpu= 1.0 Real= 2 3 2 10-APR-2009 00:25:44 AIPS Resumes 3 3 10-APR-2009 00:25:44 AIPS SETFC was not found to be running 3 3 10-APR-2009 00:25:44 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:25:44 AIPS echo "SETFC FILE FOR SOURCE 3C345 BELOW IS:" >> $ARUN/AG0145_198 3 3 10-APR-2009 00:25:44 AIPS 7JUL14_1.3.log 3 3 10-APR-2009 00:25:46 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:25:46 AIPS cat /tmp/SETFC@3C345_L,BAND.0-1 >> $ARUN/AG0145_1987JUL14_1.3.lo 3 3 10-APR-2009 00:25:46 AIPS g 3 5 10-APR-2009 00:25:48 AIPS ' NOW STARTING WITH SOURCE :2 =3C345' 3 5 10-APR-2009 00:25:48 AIPS ' ' 3 5 10-APR-2009 00:25:48 IMAGR Task IMAGR (release of 31DEC07) begins 3 2 10-APR-2009 00:25:48 IMAGR ZTXOP2: using translated file name = 3 2 10-APR-2009 00:25:48 IMAGR ZTXOP2: /tmp/SETFC@3C345_L,BAND.0-1 3 3 10-APR-2009 00:25:48 IMAGR FIELDF: Final field parameters and # read are: 3 3 10-APR-2009 00:25:48 IMAGR Field 1 4084 4084 -1.7305E-02 1.6529E-03 0 3 3 10-APR-2009 00:25:48 IMAGR Field 2 4084 4084 -1.7305E-02 -8.5990E+02 0 3 3 10-APR-2009 00:25:48 IMAGR Field 3 4084 4084 -7.4334E+02 -4.3110E+02 0 3 3 10-APR-2009 00:25:48 IMAGR Field 4 4084 4084 7.4342E+02 -4.3110E+02 0 3 3 10-APR-2009 00:25:48 IMAGR Field 5 4084 4084 -7.4599E+02 4.2880E+02 0 3 3 10-APR-2009 00:25:48 IMAGR Field 6 4084 4084 7.4595E+02 4.2880E+02 0 3 3 10-APR-2009 00:25:48 IMAGR Field 7 4084 4084 -1.7305E-02 8.5990E+02 0 3 3 10-APR-2009 00:25:48 IMAGR Field 8 246 246 -8.2365E+02 -8.1900E+02 0 3 2 10-APR-2009 00:25:48 IMAGR ZTXOP2: using translated file name = 3 2 10-APR-2009 00:25:48 IMAGR ZTXOP2: /tmp/SETFC@3C345_L,BAND.0-1 3 7 10-APR-2009 00:25:48 IMAGR WINDF: Number of clean boxes/field read as follows: 3 3 10-APR-2009 00:25:48 IMAGR Field 01: 1 Field 02: 1 Field 03: 1 Field 04: 1 3 3 10-APR-2009 00:25:48 IMAGR Field 05: 1 Field 06: 1 Field 07: 1 Field 08: 1 3 2 10-APR-2009 00:25:49 IMAGR Create 3C345 .IMAGR . 1 (UV) on disk 1 cno 12 3 4 10-APR-2009 00:25:49 IMAGR Beginning channel 1 through 1 with 2 IFs 3 3 10-APR-2009 00:25:49 IMAGR IMACPY: Copied 3996 visibilities to be imaged 3 2 10-APR-2009 00:25:50 IMAGR QINIT: did a GET of 20480 Kwords, OFF -91584845 3 2 10-APR-2009 00:25:50 IMAGR UVWAIT: begin finding uniform weights 3 2 10-APR-2009 00:25:50 IMAGR UVWAIT: Average grid weight 7.397E+03 3 2 10-APR-2009 00:25:50 IMAGR UVWAIT: Adding temperance S 1.479E+03 3 2 10-APR-2009 00:25:50 IMAGR UVWAIT: begin applying uniform or other weights 3 4 10-APR-2009 00:25:50 IMAGR UVWAIT: Sum of weights in 8.679E+06 and out 1.124E+07 3 4 10-APR-2009 00:25:50 IMAGR UVWAIT: Noise is increased by a factor 1.179 due to weighting 3 4 10-APR-2009 00:25:50 IMAGR UVWAIT: Average summed weight 7.397E+03 over 7992 vis 3 2 10-APR-2009 00:25:50 IMAGR Create 3C345 .IBM001. 1 (MA) on disk 1 cno 13 3 2 10-APR-2009 00:25:50 IMAGR Create 3C345 .IBM002. 1 (MA) on disk 1 cno 14 3 2 10-APR-2009 00:25:50 IMAGR Create 3C345 .IBM003. 1 (MA) on disk 1 cno 15 3 2 10-APR-2009 00:25:50 IMAGR Create 3C345 .IBM004. 1 (MA) on disk 1 cno 16 3 2 10-APR-2009 00:25:50 IMAGR Create 3C345 .IBM005. 1 (MA) on disk 1 cno 17 3 2 10-APR-2009 00:25:50 IMAGR Create 3C345 .IBM006. 1 (MA) on disk 1 cno 18 3 2 10-APR-2009 00:25:51 IMAGR Create 3C345 .IBM007. 1 (MA) on disk 1 cno 19 3 2 10-APR-2009 00:25:52 IMAGR Create 3C345 .IBM008. 1 (MA) on disk 1 cno 20 3 2 10-APR-2009 00:25:52 IMAGR Create 3C345 .ICL001. 1 (MA) on disk 1 cno 21 3 2 10-APR-2009 00:25:53 IMAGR Create 3C345 .ICL002. 1 (MA) on disk 1 cno 22 3 2 10-APR-2009 00:25:54 IMAGR Create 3C345 .ICL003. 1 (MA) on disk 1 cno 23 3 2 10-APR-2009 00:25:55 IMAGR Create 3C345 .ICL004. 1 (MA) on disk 1 cno 24 3 2 10-APR-2009 00:25:56 IMAGR Create 3C345 .ICL005. 1 (MA) on disk 1 cno 25 3 2 10-APR-2009 00:25:59 IMAGR Create 3C345 .ICL006. 1 (MA) on disk 1 cno 26 3 2 10-APR-2009 00:26:00 IMAGR Create 3C345 .ICL007. 1 (MA) on disk 1 cno 27 3 2 10-APR-2009 00:26:03 IMAGR Create 3C345 .ICL008. 1 (MA) on disk 1 cno 28 3 2 10-APR-2009 00:26:06 IMAGR GRDFLT: X and Y convolution type = SPHEROIDAL 3 2 10-APR-2009 00:26:06 IMAGR GRDFLT: X and Y parms = 3.0000 1.0000 3 2 10-APR-2009 00:26:06 IMAGR GRDFLT: convolution function sampled every 1/100 of a cell 3 2 10-APR-2009 00:26:06 IMAGR GRDMEM: Ave 2 Channels; 1.464900E+09 to 1.514900E+09 Hz 3 4 10-APR-2009 00:26:06 IMAGR Field 1 Sum of gridding weights = 1.19339E+08 3 4 10-APR-2009 00:26:07 IMAGR Field 1 Beam min = -87.7 MilliJy, max = 1.0 Jy 3 4 10-APR-2009 00:26:07 IMAGR Field 1 fit FWHM = 1.300 x 1.199 arcsec, PA= 19.0 3 4 10-APR-2009 00:26:07 IMAGR Field 2 Sum of gridding weights = 1.19339E+08 3 4 10-APR-2009 00:26:07 IMAGR Field 2 Beam min = -87.2 MilliJy, max = 1.0 Jy 3 4 10-APR-2009 00:26:07 IMAGR Field 2 fit FWHM = 1.300 x 1.200 arcsec, PA= 18.6 3 4 10-APR-2009 00:26:08 IMAGR Field 3 Sum of gridding weights = 1.19339E+08 3 4 10-APR-2009 00:26:08 IMAGR Field 3 Beam min = -85.1 MilliJy, max = 1.0 Jy 3 4 10-APR-2009 00:26:08 IMAGR Field 3 fit FWHM = 1.300 x 1.198 arcsec, PA= 18.3 3 4 10-APR-2009 00:26:08 IMAGR Field 4 Sum of gridding weights = 1.19339E+08 3 4 10-APR-2009 00:26:09 IMAGR Field 4 Beam min = -88.0 MilliJy, max = 1.0 Jy 3 4 10-APR-2009 00:26:09 IMAGR Field 4 fit FWHM = 1.300 x 1.201 arcsec, PA= 19.4 3 4 10-APR-2009 00:26:09 IMAGR Field 5 Sum of gridding weights = 1.19339E+08 3 4 10-APR-2009 00:26:09 IMAGR Field 5 Beam min = -85.9 MilliJy, max = 1.0 Jy 3 4 10-APR-2009 00:26:09 IMAGR Field 5 fit FWHM = 1.301 x 1.198 arcsec, PA= 18.7 3 4 10-APR-2009 00:26:10 IMAGR Field 6 Sum of gridding weights = 1.19339E+08 3 4 10-APR-2009 00:26:10 IMAGR Field 6 Beam min = -88.1 MilliJy, max = 1.0 Jy 3 4 10-APR-2009 00:26:10 IMAGR Field 6 fit FWHM = 1.301 x 1.201 arcsec, PA= 19.8 3 4 10-APR-2009 00:26:10 IMAGR Field 7 Sum of gridding weights = 1.19339E+08 3 4 10-APR-2009 00:26:11 IMAGR Field 7 Beam min = -88.2 MilliJy, max = 1.0 Jy 3 4 10-APR-2009 00:26:11 IMAGR Field 7 fit FWHM = 1.301 x 1.199 arcsec, PA= 19.4 3 4 10-APR-2009 00:26:11 IMAGR Field 8 Sum of gridding weights = 1.19339E+08 3 4 10-APR-2009 00:26:11 IMAGR Field 8 Beam min = -120.3 MilliJy, max = 1.0 Jy 3 4 10-APR-2009 00:26:11 IMAGR Field 8 fit FWHM = 1.299 x 1.198 arcsec, PA= 18.0 3 4 10-APR-2009 00:26:11 IMAGR CLBHIS: minimum component 0.500 of current peak 3 2 10-APR-2009 00:26:13 IMAGR QINIT: did a FREE of 20480 Kwords, OFF -91584845 3 2 10-APR-2009 00:26:13 IMAGR QINIT: did a GET of 32996 Kwords, OFF -104401229 3 4 10-APR-2009 00:26:16 IMAGR Field 1 min = -751.5 MilliJy,max = 8.3 Jy 3 4 10-APR-2009 00:26:22 IMAGR Field 2 min = -556.1 MilliJy,max = 1.6 Jy 3 4 10-APR-2009 00:26:29 IMAGR Field 3 min = -599.2 MilliJy,max = 1.7 Jy 3 4 10-APR-2009 00:26:31 IMAGR Field 4 min = -625.2 MilliJy,max = 1.7 Jy 3 4 10-APR-2009 00:26:34 IMAGR Field 5 min = -608.0 MilliJy,max = 1.7 Jy 3 4 10-APR-2009 00:26:37 IMAGR Field 6 min = -604.9 MilliJy,max = 1.7 Jy 3 4 10-APR-2009 00:26:40 IMAGR Field 7 min = -526.7 MilliJy,max = 1.6 Jy 3 4 10-APR-2009 00:26:40 IMAGR Field 8 min = -308.1 MilliJy,max = 437.9 MilliJy 3 2 10-APR-2009 00:26:46 IMAGR BGC Clean: using 2013 cell beam + residuals > 890.84 MilliJy 3 2 10-APR-2009 00:26:46 IMAGR 14557 Residual map points loaded 3 4 10-APR-2009 00:26:46 IMAGR Field 1 min allowed flux = 3.985 Jy iter= 8 3 3 10-APR-2009 00:26:46 IMAGR Field 1 Clean flux density= 4.746 Jy 8 comps 3 3 10-APR-2009 00:26:46 IMAGR Total Cleaned flux density = 4.746 Jy 8 comps 3 4 10-APR-2009 00:26:46 IMAGR SETDO3: imaging done with multiple tangent planes 3 2 10-APR-2009 00:26:46 IMAGR VISDFT: Begin DFT component subtraction 3 2 10-APR-2009 00:26:46 IMAGR VISDFT: Model components of type Point 3 3 10-APR-2009 00:26:46 IMAGR I Polarization model processed 3 4 10-APR-2009 00:26:49 IMAGR Field 1 min = -335.1 MilliJy,max = 3.6 Jy 3 2 10-APR-2009 00:26:52 IMAGR BGC Clean: using 1829 cell beam + residuals > 696.36 MilliJy 3 2 10-APR-2009 00:26:52 IMAGR 772 Residual map points loaded 3 4 10-APR-2009 00:26:52 IMAGR Field 1 min allowed flux = 1.716 Jy iter= 16 3 3 10-APR-2009 00:26:52 IMAGR Field 1 Clean flux density= 6.789 Jy 16 comps 3 3 10-APR-2009 00:26:52 IMAGR Total Cleaned flux density = 6.789 Jy 16 comps 3 2 10-APR-2009 00:26:52 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:26:52 IMAGR I Polarization model processed 3 4 10-APR-2009 00:26:55 IMAGR Field 1 min = -155.9 MilliJy,max = 1.5 Jy 3 3 10-APR-2009 00:26:55 IMAGR TRY ANOTHER FIELD: this is 1.468E+00 < Second best 1.612E+00 3 4 10-APR-2009 00:26:58 IMAGR Field 4 min = -129.2 MilliJy,max = 327.3 MilliJy 3 3 10-APR-2009 00:26:58 IMAGR TRY ANOTHER FIELD: this is 3.119E-01 < Second best 1.540E+00 3 4 10-APR-2009 00:27:01 IMAGR Field 5 min = -117.5 MilliJy,max = 313.3 MilliJy 3 3 10-APR-2009 00:27:01 IMAGR TRY ANOTHER FIELD: this is 2.986E-01 < Second best 1.495E+00 3 4 10-APR-2009 00:27:04 IMAGR Field 7 min = -104.4 MilliJy,max = 312.4 MilliJy 3 3 10-APR-2009 00:27:04 IMAGR TRY ANOTHER FIELD: this is 2.936E-01 < Second best 1.480E+00 3 4 10-APR-2009 00:27:07 IMAGR Field 2 min = -112.0 MilliJy,max = 316.0 MilliJy 3 3 10-APR-2009 00:27:07 IMAGR TRY ANOTHER FIELD: this is 2.734E-01 < Second best 1.468E+00 3 2 10-APR-2009 00:27:10 IMAGR BGC Clean: using 765 cell beam + residuals > 515.32 MilliJy 3 2 10-APR-2009 00:27:10 IMAGR 49 Residual map points loaded 3 4 10-APR-2009 00:27:10 IMAGR Field 1 min allowed flux = 763.524 MilliJy iter= 24 3 3 10-APR-2009 00:27:10 IMAGR Field 1 Clean flux density= 7.678 Jy 24 comps 3 3 10-APR-2009 00:27:10 IMAGR Total Cleaned flux density = 7.678 Jy 24 comps 3 2 10-APR-2009 00:27:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:27:10 IMAGR I Polarization model processed 3 4 10-APR-2009 00:27:13 IMAGR Field 6 min = -61.7 MilliJy,max = 144.3 MilliJy 3 3 10-APR-2009 00:27:13 IMAGR TRY ANOTHER FIELD: this is 8.852E-02 < Second best 1.029E+00 3 4 10-APR-2009 00:27:16 IMAGR Field 3 min = -60.5 MilliJy,max = 156.4 MilliJy 3 3 10-APR-2009 00:27:16 IMAGR TRY ANOTHER FIELD: this is 1.040E-01 < Second best 7.260E-01 3 4 10-APR-2009 00:27:19 IMAGR Field 1 min = -81.4 MilliJy,max = 688.0 MilliJy 3 2 10-APR-2009 00:27:22 IMAGR BGC Clean: using 1827 cell beam + residuals > 150.04 MilliJy 3 2 10-APR-2009 00:27:22 IMAGR 661 Residual map points loaded 3 4 10-APR-2009 00:27:22 IMAGR Field 1 min allowed flux = 343.498 MilliJy iter= 32 3 3 10-APR-2009 00:27:22 IMAGR Field 1 Clean flux density= 8.077 Jy 32 comps 3 3 10-APR-2009 00:27:22 IMAGR Total Cleaned flux density = 8.077 Jy 32 comps 3 2 10-APR-2009 00:27:22 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:27:22 IMAGR I Polarization model processed 3 4 10-APR-2009 00:27:22 IMAGR Field 8 min = -33.0 MilliJy,max = 32.6 MilliJy 3 3 10-APR-2009 00:27:22 IMAGR TRY ANOTHER FIELD: this is 2.852E-02 < Second best 3.267E-01 3 4 10-APR-2009 00:27:25 IMAGR Field 1 min = -50.8 MilliJy,max = 309.2 MilliJy 3 3 10-APR-2009 00:27:25 IMAGR TRY ANOTHER FIELD: this is 2.942E-01 < Second best 3.119E-01 3 4 10-APR-2009 00:27:29 IMAGR Field 4 min = -49.3 MilliJy,max = 86.1 MilliJy 3 3 10-APR-2009 00:27:29 IMAGR TRY ANOTHER FIELD: this is 7.839E-02 < Second best 2.986E-01 3 4 10-APR-2009 00:27:32 IMAGR Field 5 min = -47.8 MilliJy,max = 93.3 MilliJy 3 3 10-APR-2009 00:27:32 IMAGR TRY ANOTHER FIELD: this is 8.905E-02 < Second best 2.942E-01 3 2 10-APR-2009 00:27:34 IMAGR BGC Clean: using 103 cell beam + residuals > 117.23 MilliJy 3 2 10-APR-2009 00:27:35 IMAGR 140 Residual map points loaded 3 4 10-APR-2009 00:27:35 IMAGR Field 1 min algorithm flux= 157.779 MilliJy iter= 46 3 3 10-APR-2009 00:27:35 IMAGR Field 1 Clean flux density= 8.392 Jy 46 comps 3 3 10-APR-2009 00:27:35 IMAGR Total Cleaned flux density = 8.392 Jy 46 comps 3 2 10-APR-2009 00:27:35 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:27:35 IMAGR I Polarization model processed 3 4 10-APR-2009 00:27:37 IMAGR Field 7 min = -45.2 MilliJy,max = 87.9 MilliJy 3 3 10-APR-2009 00:27:39 IMAGR TRY ANOTHER FIELD: this is 8.384E-02 < Second best 2.734E-01 3 4 10-APR-2009 00:27:42 IMAGR Field 2 min = -43.4 MilliJy,max = 75.4 MilliJy 3 3 10-APR-2009 00:27:42 IMAGR TRY ANOTHER FIELD: this is 7.199E-02 < Second best 1.501E-01 3 4 10-APR-2009 00:27:45 IMAGR Field 1 min = -52.7 MilliJy,max = 154.3 MilliJy 3 2 10-APR-2009 00:27:48 IMAGR BGC Clean: using 155 cell beam + residuals > 54.80 MilliJy 3 2 10-APR-2009 00:27:48 IMAGR 4118 Residual map points loaded 3 4 10-APR-2009 00:27:48 IMAGR Field 1 min algorithm flux= 86.120 MilliJy iter= 80 3 3 10-APR-2009 00:27:48 IMAGR Field 1 Clean flux density= 8.749 Jy 80 comps 3 3 10-APR-2009 00:27:48 IMAGR Total Cleaned flux density = 8.749 Jy 80 comps 3 2 10-APR-2009 00:27:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:27:48 IMAGR I Polarization model processed 3 4 10-APR-2009 00:27:51 IMAGR Field 3 min = -45.8 MilliJy,max = 56.4 MilliJy 3 3 10-APR-2009 00:27:51 IMAGR TRY ANOTHER FIELD: this is 4.488E-02 < Second best 8.905E-02 3 4 10-APR-2009 00:27:54 IMAGR Field 5 min = -45.8 MilliJy,max = 62.3 MilliJy 3 3 10-APR-2009 00:27:54 IMAGR TRY ANOTHER FIELD: this is 5.945E-02 < Second best 8.852E-02 3 4 10-APR-2009 00:27:57 IMAGR Field 6 min = -52.4 MilliJy,max = 55.4 MilliJy 3 3 10-APR-2009 00:27:57 IMAGR TRY ANOTHER FIELD: this is 4.896E-02 < Second best 8.384E-02 3 4 10-APR-2009 00:28:00 IMAGR Field 7 min = -40.7 MilliJy,max = 66.3 MilliJy 3 3 10-APR-2009 00:28:01 IMAGR TRY ANOTHER FIELD: this is 6.324E-02 < Second best 8.203E-02 3 4 10-APR-2009 00:28:04 IMAGR Field 1 min = -59.0 MilliJy,max = 82.9 MilliJy 3 2 10-APR-2009 00:28:06 IMAGR BGC Clean: using 103 cell beam + residuals > 41.61 MilliJy 3 2 10-APR-2009 00:28:06 IMAGR 4474 Residual map points loaded 3 4 10-APR-2009 00:28:06 IMAGR Field 1 min algorithm flux= 60.510 MilliJy iter= 125 3 3 10-APR-2009 00:28:06 IMAGR Field 1 Clean flux density= 9.046 Jy 125 comps 3 3 10-APR-2009 00:28:06 IMAGR Total Cleaned flux density = 9.046 Jy 125 comps 3 2 10-APR-2009 00:28:06 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:28:06 IMAGR I Polarization model processed 3 4 10-APR-2009 00:28:09 IMAGR Field 4 min = -56.9 MilliJy,max = 47.4 MilliJy 3 3 10-APR-2009 00:28:10 IMAGR TRY ANOTHER FIELD: this is 5.432E-02 < Second best 7.199E-02 3 4 10-APR-2009 00:28:13 IMAGR Field 2 min = -40.5 MilliJy,max = 55.7 MilliJy 3 3 10-APR-2009 00:28:13 IMAGR TRY ANOTHER FIELD: this is 4.606E-02 < Second best 6.324E-02 3 4 10-APR-2009 00:28:17 IMAGR Field 7 min = -41.9 MilliJy,max = 56.6 MilliJy 3 3 10-APR-2009 00:28:17 IMAGR TRY ANOTHER FIELD: this is 5.403E-02 < Second best 5.945E-02 3 4 10-APR-2009 00:28:20 IMAGR Field 5 min = -42.4 MilliJy,max = 54.0 MilliJy 3 3 10-APR-2009 00:28:20 IMAGR TRY ANOTHER FIELD: this is 5.159E-02 < Second best 5.773E-02 3 4 10-APR-2009 00:28:23 IMAGR Field 1 min = -58.7 MilliJy,max = 56.7 MilliJy 3 2 10-APR-2009 00:28:26 IMAGR BGC Clean: using 103 cell beam + residuals > 31.15 MilliJy 3 2 10-APR-2009 00:28:26 IMAGR 9942 Residual map points loaded 3 4 10-APR-2009 00:28:26 IMAGR Field 1 min algorithm flux= 45.272 MilliJy iter= 196 3 3 10-APR-2009 00:28:26 IMAGR Field 1 Clean flux density= 9.286 Jy 196 comps 3 3 10-APR-2009 00:28:26 IMAGR Total Cleaned flux density = 9.286 Jy 196 comps 3 2 10-APR-2009 00:28:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:28:27 IMAGR I Polarization model processed 3 4 10-APR-2009 00:28:30 IMAGR Field 4 min = -37.8 MilliJy,max = 40.7 MilliJy 3 3 10-APR-2009 00:28:30 IMAGR TRY ANOTHER FIELD: this is 3.606E-02 < Second best 5.403E-02 3 4 10-APR-2009 00:28:33 IMAGR Field 7 min = -40.8 MilliJy,max = 48.7 MilliJy 3 3 10-APR-2009 00:28:33 IMAGR TRY ANOTHER FIELD: this is 4.652E-02 < Second best 5.159E-02 3 4 10-APR-2009 00:28:36 IMAGR Field 5 min = -38.8 MilliJy,max = 46.0 MilliJy 3 3 10-APR-2009 00:28:37 IMAGR TRY ANOTHER FIELD: this is 4.398E-02 < Second best 4.896E-02 3 4 10-APR-2009 00:28:40 IMAGR Field 6 min = -37.4 MilliJy,max = 41.4 MilliJy 3 3 10-APR-2009 00:28:40 IMAGR TRY ANOTHER FIELD: this is 3.957E-02 < Second best 4.652E-02 3 2 10-APR-2009 00:28:46 IMAGR BGC Clean: using 103 cell beam + residuals > 29.78 MilliJy 3 2 10-APR-2009 00:28:48 IMAGR 1566 Residual map points loaded 3 4 10-APR-2009 00:28:48 IMAGR Field 7 min algorithm flux= 37.005 MilliJy iter= 53 3 3 10-APR-2009 00:28:48 IMAGR Field 7 Clean flux density= 203.804 MilliJy 53 comps 3 3 10-APR-2009 00:28:48 IMAGR Total Cleaned flux density = 9.490 Jy 249 comps 3 2 10-APR-2009 00:28:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:28:48 IMAGR I Polarization model processed 3 4 10-APR-2009 00:28:51 IMAGR Field 2 min = -38.2 MilliJy,max = 49.0 MilliJy 3 3 10-APR-2009 00:28:52 IMAGR TRY ANOTHER FIELD: this is 3.390E-02 < Second best 4.488E-02 3 4 10-APR-2009 00:28:55 IMAGR Field 3 min = -41.7 MilliJy,max = 39.7 MilliJy 3 3 10-APR-2009 00:28:55 IMAGR TRY ANOTHER FIELD: this is 3.751E-02 < Second best 4.398E-02 3 4 10-APR-2009 00:28:59 IMAGR Field 5 min = -37.6 MilliJy,max = 39.7 MilliJy 3 3 10-APR-2009 00:28:59 IMAGR TRY ANOTHER FIELD: this is 3.796E-02 < Second best 4.324E-02 3 4 10-APR-2009 00:29:02 IMAGR Field 1 min = -41.7 MilliJy,max = 40.9 MilliJy 3 2 10-APR-2009 00:29:04 IMAGR BGC Clean: using 103 cell beam + residuals > 25.71 MilliJy 3 2 10-APR-2009 00:29:05 IMAGR 6189 Residual map points loaded 3 4 10-APR-2009 00:29:05 IMAGR Field 1 min algorithm flux= 33.680 MilliJy iter= 285 3 3 10-APR-2009 00:29:05 IMAGR Field 1 Clean flux density= 9.445 Jy 285 comps 3 3 10-APR-2009 00:29:05 IMAGR Total Cleaned flux density = 9.649 Jy 338 comps 3 2 10-APR-2009 00:29:05 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:29:05 IMAGR I Polarization model processed 3 4 10-APR-2009 00:29:08 IMAGR Field 6 min = -34.4 MilliJy,max = 37.0 MilliJy 3 3 10-APR-2009 00:29:08 IMAGR TRY ANOTHER FIELD: this is 3.536E-02 < Second best 3.796E-02 3 4 10-APR-2009 00:29:11 IMAGR Field 5 min = -34.6 MilliJy,max = 36.2 MilliJy 3 3 10-APR-2009 00:29:11 IMAGR TRY ANOTHER FIELD: this is 3.292E-02 < Second best 3.751E-02 3 4 10-APR-2009 00:29:14 IMAGR Field 3 min = -33.3 MilliJy,max = 37.8 MilliJy 3 3 10-APR-2009 00:29:14 IMAGR TRY ANOTHER FIELD: this is 3.326E-02 < Second best 3.606E-02 3 4 10-APR-2009 00:29:17 IMAGR Field 4 min = -33.8 MilliJy,max = 36.1 MilliJy 3 3 10-APR-2009 00:29:17 IMAGR TRY ANOTHER FIELD: this is 3.158E-02 < Second best 3.536E-02 3 2 10-APR-2009 00:29:24 IMAGR BGC Clean: using 103 cell beam + residuals > 25.02 MilliJy 3 2 10-APR-2009 00:29:25 IMAGR 360 Residual map points loaded 3 4 10-APR-2009 00:29:26 IMAGR Field 6 min algorithm flux= 27.669 MilliJy iter= 38 3 3 10-APR-2009 00:29:26 IMAGR Field 6 Clean flux density= 7.190 MilliJy 38 comps 3 3 10-APR-2009 00:29:26 IMAGR Total Cleaned flux density = 9.656 Jy 376 comps 3 2 10-APR-2009 00:29:26 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:29:26 IMAGR I Polarization model processed 3 4 10-APR-2009 00:29:29 IMAGR Field 7 min = -31.7 MilliJy,max = 36.4 MilliJy 3 3 10-APR-2009 00:29:29 IMAGR TRY ANOTHER FIELD: this is 3.029E-02 < Second best 3.390E-02 3 4 10-APR-2009 00:29:32 IMAGR Field 2 min = -36.3 MilliJy,max = 42.2 MilliJy 3 2 10-APR-2009 00:29:36 IMAGR BGC Clean: using 103 cell beam + residuals > 23.70 MilliJy 3 2 10-APR-2009 00:29:38 IMAGR 1131 Residual map points loaded 3 4 10-APR-2009 00:29:38 IMAGR Field 2 min algorithm flux= 27.240 MilliJy iter= 62 3 3 10-APR-2009 00:29:38 IMAGR Field 2 Clean flux density= 5.342 MilliJy 62 comps 3 3 10-APR-2009 00:29:38 IMAGR Total Cleaned flux density = 9.662 Jy 438 comps 3 2 10-APR-2009 00:29:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:29:38 IMAGR I Polarization model processed 3 4 10-APR-2009 00:29:41 IMAGR Field 3 min = -31.4 MilliJy,max = 36.0 MilliJy 3 2 10-APR-2009 00:29:44 IMAGR BGC Clean: using 103 cell beam + residuals > 23.65 MilliJy 3 2 10-APR-2009 00:29:46 IMAGR 443 Residual map points loaded 3 4 10-APR-2009 00:29:46 IMAGR Field 3 min algorithm flux= -26.184 MilliJy iter= 51 3 3 10-APR-2009 00:29:46 IMAGR Field 3 Clean flux density= 87.968 MilliJy 51 comps 3 3 10-APR-2009 00:29:46 IMAGR Total Cleaned flux density = 9.750 Jy 489 comps 3 2 10-APR-2009 00:29:46 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:29:46 IMAGR I Polarization model processed 3 4 10-APR-2009 00:29:49 IMAGR Field 5 min = -32.6 MilliJy,max = 32.5 MilliJy 3 3 10-APR-2009 00:29:50 IMAGR TRY ANOTHER FIELD: this is 2.878E-02 < Second best 3.220E-02 3 4 10-APR-2009 00:29:52 IMAGR Field 1 min = -30.9 MilliJy,max = 31.4 MilliJy 3 3 10-APR-2009 00:29:53 IMAGR TRY ANOTHER FIELD: this is 3.006E-02 < Second best 3.158E-02 3 4 10-APR-2009 00:29:56 IMAGR Field 4 min = -30.3 MilliJy,max = 33.8 MilliJy 3 2 10-APR-2009 00:29:58 IMAGR BGC Clean: using 103 cell beam + residuals > 21.32 MilliJy 3 2 10-APR-2009 00:30:02 IMAGR 1982 Residual map points loaded 3 4 10-APR-2009 00:30:02 IMAGR Field 4 min algorithm flux= 24.922 MilliJy iter= 90 3 3 10-APR-2009 00:30:02 IMAGR Field 4 Clean flux density= 55.909 MilliJy 90 comps 3 3 10-APR-2009 00:30:02 IMAGR Total Cleaned flux density = 9.806 Jy 579 comps 3 2 10-APR-2009 00:30:02 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:30:02 IMAGR I Polarization model processed 3 4 10-APR-2009 00:30:05 IMAGR Field 7 min = -27.2 MilliJy,max = 32.4 MilliJy 3 3 10-APR-2009 00:30:05 IMAGR TRY ANOTHER FIELD: this is 2.665E-02 < Second best 3.006E-02 3 4 10-APR-2009 00:30:08 IMAGR Field 1 min = -28.3 MilliJy,max = 29.8 MilliJy 3 2 10-APR-2009 00:30:12 IMAGR BGC Clean: using 103 cell beam + residuals > 20.70 MilliJy 3 2 10-APR-2009 00:30:13 IMAGR 2490 Residual map points loaded 3 4 10-APR-2009 00:30:13 IMAGR Field 1 min algorithm flux= 24.039 MilliJy iter= 385 3 3 10-APR-2009 00:30:13 IMAGR Field 1 Clean flux density= 9.602 Jy 385 comps 3 3 10-APR-2009 00:30:13 IMAGR Total Cleaned flux density = 9.962 Jy 679 comps 3 2 10-APR-2009 00:30:13 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:30:13 IMAGR I Polarization model processed 3 4 10-APR-2009 00:30:16 IMAGR Field 5 min = -28.6 MilliJy,max = 27.6 MilliJy 3 3 10-APR-2009 00:30:16 IMAGR TRY ANOTHER FIELD: this is 2.620E-02 < Second best 2.852E-02 3 4 10-APR-2009 00:30:17 IMAGR Field 8 min = -18.2 MilliJy,max = 15.7 MilliJy 3 3 10-APR-2009 00:30:17 IMAGR TRY ANOTHER FIELD: this is 1.742E-02 < Second best 2.665E-02 3 4 10-APR-2009 00:30:20 IMAGR Field 7 min = -26.5 MilliJy,max = 30.5 MilliJy 3 2 10-APR-2009 00:30:25 IMAGR BGC Clean: using 103 cell beam + residuals > 20.40 MilliJy 3 2 10-APR-2009 00:30:27 IMAGR 418 Residual map points loaded 3 4 10-APR-2009 00:30:27 IMAGR Field 7 min algorithm flux= 22.015 MilliJy iter= 109 3 3 10-APR-2009 00:30:27 IMAGR Field 7 Clean flux density= 170.553 MilliJy 109 comps 3 3 10-APR-2009 00:30:27 IMAGR Total Cleaned flux density = 9.929 Jy 735 comps 3 2 10-APR-2009 00:30:28 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:30:28 IMAGR I Polarization model processed 3 4 10-APR-2009 00:30:31 IMAGR Field 6 min = -22.9 MilliJy,max = 24.3 MilliJy 3 3 10-APR-2009 00:30:31 IMAGR TRY ANOTHER FIELD: this is 2.175E-02 < Second best 2.620E-02 3 4 10-APR-2009 00:30:34 IMAGR Field 5 min = -27.7 MilliJy,max = 27.3 MilliJy 3 2 10-APR-2009 00:30:39 IMAGR BGC Clean: using 103 cell beam + residuals > 20.03 MilliJy 3 2 10-APR-2009 00:30:44 IMAGR 407 Residual map points loaded 3 4 10-APR-2009 00:30:44 IMAGR Field 5 min algorithm flux= 21.646 MilliJy iter= 61 3 3 10-APR-2009 00:30:44 IMAGR Field 5 Clean flux density= 67.365 MilliJy 61 comps 3 3 10-APR-2009 00:30:45 IMAGR Total Cleaned flux density = 9.997 Jy 796 comps 3 2 10-APR-2009 00:30:45 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:30:45 IMAGR I Polarization model processed 3 4 10-APR-2009 00:30:49 IMAGR Field 2 min = -27.4 MilliJy,max = 26.6 MilliJy 3 3 10-APR-2009 00:30:49 IMAGR TRY ANOTHER FIELD: this is 2.149E-02 < Second best 2.502E-02 3 4 10-APR-2009 00:30:52 IMAGR Field 3 min = -24.9 MilliJy,max = 28.8 MilliJy 3 3 10-APR-2009 00:30:52 IMAGR TRY ANOTHER FIELD: this is 2.196E-02 < Second best 2.384E-02 3 4 10-APR-2009 00:30:55 IMAGR Field 4 min = -26.9 MilliJy,max = 28.0 MilliJy 3 2 10-APR-2009 00:30:58 IMAGR BGC Clean: using 103 cell beam + residuals > 17.90 MilliJy 3 2 10-APR-2009 00:31:00 IMAGR 635 Residual map points loaded 3 4 10-APR-2009 00:31:00 IMAGR Field 4 min algorithm flux= -19.420 MilliJy iter= 161 3 3 10-APR-2009 00:31:00 IMAGR Field 4 Clean flux density= 24.659 MilliJy 161 comps 3 3 10-APR-2009 00:31:00 IMAGR Total Cleaned flux density = 9.965 Jy 867 comps 3 2 10-APR-2009 00:31:02 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:31:02 IMAGR I Polarization model processed 3 4 10-APR-2009 00:31:05 IMAGR Field 1 min = -24.0 MilliJy,max = 24.5 MilliJy 3 3 10-APR-2009 00:31:05 IMAGR TRY ANOTHER FIELD: this is 2.024E-02 < Second best 2.196E-02 3 4 10-APR-2009 00:31:08 IMAGR Field 3 min = -24.6 MilliJy,max = 27.9 MilliJy 3 2 10-APR-2009 00:31:11 IMAGR BGC Clean: using 103 cell beam + residuals > 16.69 MilliJy 3 2 10-APR-2009 00:31:12 IMAGR 892 Residual map points loaded 3 4 10-APR-2009 00:31:12 IMAGR Field 3 min algorithm flux= -18.414 MilliJy iter= 144 3 3 10-APR-2009 00:31:12 IMAGR Field 3 Clean flux density= 116.562 MilliJy 144 comps 3 3 10-APR-2009 00:31:12 IMAGR Total Cleaned flux density = 9.994 Jy 960 comps 3 2 10-APR-2009 00:31:12 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:31:12 IMAGR I Polarization model processed 3 4 10-APR-2009 00:31:15 IMAGR Field 6 min = -22.9 MilliJy,max = 21.8 MilliJy 3 3 10-APR-2009 00:31:15 IMAGR TRY ANOTHER FIELD: this is 2.042E-02 < Second best 2.149E-02 3 4 10-APR-2009 00:31:18 IMAGR Field 2 min = -25.7 MilliJy,max = 24.8 MilliJy 3 3 10-APR-2009 00:31:18 IMAGR TRY ANOTHER FIELD: this is 1.979E-02 < Second best 2.106E-02 3 4 10-APR-2009 00:31:21 IMAGR Field 7 min = -20.3 MilliJy,max = 25.8 MilliJy 3 3 10-APR-2009 00:31:21 IMAGR TRY ANOTHER FIELD: this is 1.945E-02 < Second best 2.070E-02 3 4 10-APR-2009 00:31:24 IMAGR Field 5 min = -23.8 MilliJy,max = 24.1 MilliJy 3 3 10-APR-2009 00:31:24 IMAGR TRY ANOTHER FIELD: this is 1.924E-02 < Second best 2.042E-02 3 2 10-APR-2009 00:31:27 IMAGR BGC Clean: using 103 cell beam + residuals > 15.61 MilliJy 3 2 10-APR-2009 00:31:30 IMAGR 1250 Residual map points loaded 3 4 10-APR-2009 00:31:30 IMAGR Field 6 min algorithm flux= -17.374 MilliJy iter= 150 3 3 10-APR-2009 00:31:30 IMAGR Field 6 Clean flux density= -31.974 MicroJy 150 comps 3 3 10-APR-2009 00:31:30 IMAGR Total Cleaned flux density = 9.987 Jy 1072 comps 3 2 10-APR-2009 00:31:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:31:30 IMAGR I Polarization model processed 3 4 10-APR-2009 00:31:33 IMAGR Field 1 min = -22.9 MilliJy,max = 22.3 MilliJy 3 2 10-APR-2009 00:31:36 IMAGR BGC Clean: using 103 cell beam + residuals > 15.42 MilliJy 3 2 10-APR-2009 00:31:36 IMAGR 2566 Residual map points loaded 3 4 10-APR-2009 00:31:36 IMAGR Field 1 min algorithm flux= 17.406 MilliJy iter= 531 3 3 10-APR-2009 00:31:36 IMAGR Field 1 Clean flux density= 9.714 Jy 531 comps 3 3 10-APR-2009 00:31:36 IMAGR Total Cleaned flux density = 10.098 Jy 1218 comps 3 2 10-APR-2009 00:31:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:31:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:31:39 IMAGR Field 2 min = -22.7 MilliJy,max = 22.8 MilliJy 3 3 10-APR-2009 00:31:40 IMAGR TRY ANOTHER FIELD: this is 1.846E-02 < Second best 1.945E-02 3 4 10-APR-2009 00:31:43 IMAGR Field 7 min = -18.2 MilliJy,max = 22.6 MilliJy 3 3 10-APR-2009 00:31:43 IMAGR TRY ANOTHER FIELD: this is 1.768E-02 < Second best 1.924E-02 3 4 10-APR-2009 00:31:46 IMAGR Field 5 min = -19.9 MilliJy,max = 20.7 MilliJy 3 2 10-APR-2009 00:31:49 IMAGR BGC Clean: using 103 cell beam + residuals > 14.95 MilliJy 3 2 10-APR-2009 00:31:50 IMAGR 704 Residual map points loaded 3 4 10-APR-2009 00:31:50 IMAGR Field 5 min algorithm flux= -16.084 MilliJy iter= 154 3 3 10-APR-2009 00:31:50 IMAGR Field 5 Clean flux density= 61.211 MilliJy 154 comps 3 3 10-APR-2009 00:31:50 IMAGR Total Cleaned flux density = 10.092 Jy 1311 comps 3 2 10-APR-2009 00:31:52 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:31:52 IMAGR I Polarization model processed 3 4 10-APR-2009 00:31:55 IMAGR Field 4 min = -22.2 MilliJy,max = 21.8 MilliJy 3 3 10-APR-2009 00:31:55 IMAGR TRY ANOTHER FIELD: this is 1.585E-02 < Second best 1.846E-02 3 4 10-APR-2009 00:31:58 IMAGR Field 2 min = -21.6 MilliJy,max = 22.3 MilliJy 3 2 10-APR-2009 00:32:04 IMAGR BGC Clean: using 103 cell beam + residuals > 14.32 MilliJy 3 2 10-APR-2009 00:32:06 IMAGR 555 Residual map points loaded 3 4 10-APR-2009 00:32:08 IMAGR Field 2 min algorithm flux= 15.219 MilliJy iter= 144 3 3 10-APR-2009 00:32:08 IMAGR Field 2 Clean flux density= -2.053 MilliJy 144 comps 3 3 10-APR-2009 00:32:08 IMAGR Total Cleaned flux density = 10.085 Jy 1393 comps 3 2 10-APR-2009 00:32:08 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:32:08 IMAGR I Polarization model processed 3 4 10-APR-2009 00:32:11 IMAGR Field 7 min = -17.4 MilliJy,max = 20.3 MilliJy 3 2 10-APR-2009 00:32:17 IMAGR BGC Clean: using 103 cell beam + residuals > 14.29 MilliJy 3 2 10-APR-2009 00:32:19 IMAGR 349 Residual map points loaded 3 4 10-APR-2009 00:32:19 IMAGR Field 7 min algorithm flux= -14.998 MilliJy iter= 178 3 3 10-APR-2009 00:32:19 IMAGR Field 7 Clean flux density= 200.568 MilliJy 178 comps 3 3 10-APR-2009 00:32:19 IMAGR Total Cleaned flux density = 10.115 Jy 1462 comps 3 2 10-APR-2009 00:32:19 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:32:19 IMAGR I Polarization model processed 3 4 10-APR-2009 00:32:22 IMAGR Field 3 min = -18.3 MilliJy,max = 20.9 MilliJy 3 3 10-APR-2009 00:32:23 IMAGR TRY ANOTHER FIELD: this is 1.546E-02 < Second best 1.742E-02 3 4 10-APR-2009 00:32:23 IMAGR Field 8 min = -14.2 MilliJy,max = 12.9 MilliJy 3 3 10-APR-2009 00:32:23 IMAGR TRY ANOTHER FIELD: this is 1.361E-02 < Second best 1.667E-02 3 4 10-APR-2009 00:32:26 IMAGR Field 1 min = -20.0 MilliJy,max = 18.3 MilliJy 3 3 10-APR-2009 00:32:26 IMAGR TRY ANOTHER FIELD: this is 1.441E-02 < Second best 1.662E-02 3 4 10-APR-2009 00:32:30 IMAGR Field 6 min = -17.9 MilliJy,max = 17.2 MilliJy 3 3 10-APR-2009 00:32:31 IMAGR TRY ANOTHER FIELD: this is 1.422E-02 < Second best 1.585E-02 3 4 10-APR-2009 00:32:34 IMAGR Field 4 min = -20.3 MilliJy,max = 20.6 MilliJy 3 2 10-APR-2009 00:32:38 IMAGR BGC Clean: using 103 cell beam + residuals > 12.58 MilliJy 3 2 10-APR-2009 00:32:39 IMAGR 1474 Residual map points loaded 3 4 10-APR-2009 00:32:39 IMAGR Field 4 min algorithm flux= 13.804 MilliJy iter= 308 3 3 10-APR-2009 00:32:39 IMAGR Field 4 Clean flux density= 48.820 MilliJy 308 comps 3 3 10-APR-2009 00:32:39 IMAGR Total Cleaned flux density = 10.139 Jy 1609 comps 3 2 10-APR-2009 00:32:39 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:32:39 IMAGR I Polarization model processed 3 4 10-APR-2009 00:32:42 IMAGR Field 3 min = -17.6 MilliJy,max = 20.5 MilliJy 3 2 10-APR-2009 00:32:45 IMAGR BGC Clean: using 103 cell beam + residuals > 12.56 MilliJy 3 2 10-APR-2009 00:32:47 IMAGR 737 Residual map points loaded 3 4 10-APR-2009 00:32:51 IMAGR Field 3 min algorithm flux= 13.414 MilliJy iter= 254 3 3 10-APR-2009 00:32:51 IMAGR Field 3 Clean flux density= 133.637 MilliJy 254 comps 3 3 10-APR-2009 00:32:51 IMAGR Total Cleaned flux density = 10.156 Jy 1719 comps 3 2 10-APR-2009 00:32:52 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:32:52 IMAGR I Polarization model processed 3 4 10-APR-2009 00:32:55 IMAGR Field 5 min = -16.4 MilliJy,max = 17.9 MilliJy 3 2 10-APR-2009 00:32:58 IMAGR BGC Clean: using 103 cell beam + residuals > 12.10 MilliJy 3 2 10-APR-2009 00:32:58 IMAGR 648 Residual map points loaded 3 4 10-APR-2009 00:32:58 IMAGR Field 5 min algorithm flux= -12.823 MilliJy iter= 257 3 3 10-APR-2009 00:32:58 IMAGR Field 5 Clean flux density= 54.006 MilliJy 257 comps 3 3 10-APR-2009 00:32:58 IMAGR Total Cleaned flux density = 10.149 Jy 1822 comps 3 2 10-APR-2009 00:32:58 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:32:58 IMAGR I Polarization model processed 3 4 10-APR-2009 00:33:01 IMAGR Field 2 min = -17.7 MilliJy,max = 17.1 MilliJy 3 3 10-APR-2009 00:33:02 IMAGR TRY ANOTHER FIELD: this is 1.289E-02 < Second best 1.441E-02 3 4 10-APR-2009 00:33:04 IMAGR Field 1 min = -17.9 MilliJy,max = 16.3 MilliJy 3 3 10-APR-2009 00:33:05 IMAGR TRY ANOTHER FIELD: this is 1.324E-02 < Second best 1.435E-02 3 4 10-APR-2009 00:33:08 IMAGR Field 7 min = -15.4 MilliJy,max = 17.8 MilliJy 3 3 10-APR-2009 00:33:08 IMAGR TRY ANOTHER FIELD: this is 1.301E-02 < Second best 1.422E-02 3 4 10-APR-2009 00:33:11 IMAGR Field 6 min = -16.7 MilliJy,max = 15.3 MilliJy 3 2 10-APR-2009 00:33:14 IMAGR BGC Clean: using 103 cell beam + residuals > 11.15 MilliJy 3 2 10-APR-2009 00:33:16 IMAGR 1118 Residual map points loaded 3 4 10-APR-2009 00:33:16 IMAGR Field 6 min algorithm flux= 11.969 MilliJy iter= 286 3 3 10-APR-2009 00:33:16 IMAGR Field 6 Clean flux density= -15.652 MilliJy 286 comps 3 3 10-APR-2009 00:33:16 IMAGR Total Cleaned flux density = 10.133 Jy 1958 comps 3 2 10-APR-2009 00:33:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:33:16 IMAGR I Polarization model processed 3 4 10-APR-2009 00:33:16 IMAGR Field 8 min = -10.0 MilliJy,max = 10.9 MilliJy 3 3 10-APR-2009 00:33:16 IMAGR TRY ANOTHER FIELD: this is 1.043E-02 < Second best 1.324E-02 3 4 10-APR-2009 00:33:19 IMAGR Field 1 min = -17.5 MilliJy,max = 15.9 MilliJy 3 2 10-APR-2009 00:33:22 IMAGR BGC Clean: using 103 cell beam + residuals > 11.13 MilliJy 3 2 10-APR-2009 00:33:23 IMAGR 586 Residual map points loaded 3 4 10-APR-2009 00:33:24 IMAGR Field 1 min algorithm flux= 11.722 MilliJy iter= 634 3 3 10-APR-2009 00:33:24 IMAGR Field 1 Clean flux density= 9.749 Jy 634 comps 3 3 10-APR-2009 00:33:24 IMAGR Total Cleaned flux density = 10.168 Jy 2061 comps 3 2 10-APR-2009 00:33:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:33:24 IMAGR I Polarization model processed 3 4 10-APR-2009 00:33:27 IMAGR Field 4 min = -15.7 MilliJy,max = 16.2 MilliJy 3 3 10-APR-2009 00:33:27 IMAGR TRY ANOTHER FIELD: this is 1.141E-02 < Second best 1.301E-02 3 4 10-APR-2009 00:33:30 IMAGR Field 7 min = -14.3 MilliJy,max = 16.3 MilliJy 3 3 10-APR-2009 00:33:30 IMAGR TRY ANOTHER FIELD: this is 1.190E-02 < Second best 1.289E-02 3 4 10-APR-2009 00:33:33 IMAGR Field 2 min = -16.9 MilliJy,max = 16.0 MilliJy 3 2 10-APR-2009 00:33:38 IMAGR BGC Clean: using 103 cell beam + residuals > 10.58 MilliJy 3 2 10-APR-2009 00:33:39 IMAGR 880 Residual map points loaded 3 4 10-APR-2009 00:33:39 IMAGR Field 2 min algorithm flux= -11.239 MilliJy iter= 272 3 3 10-APR-2009 00:33:39 IMAGR Field 2 Clean flux density= 5.499 MilliJy 272 comps 3 3 10-APR-2009 00:33:39 IMAGR Total Cleaned flux density = 10.176 Jy 2189 comps 3 2 10-APR-2009 00:33:39 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:33:39 IMAGR I Polarization model processed 3 4 10-APR-2009 00:33:42 IMAGR Field 3 min = -14.9 MilliJy,max = 16.7 MilliJy 3 2 10-APR-2009 00:33:45 IMAGR BGC Clean: using 103 cell beam + residuals > 10.20 MilliJy 3 2 10-APR-2009 00:33:45 IMAGR 350 Residual map points loaded 3 4 10-APR-2009 00:33:45 IMAGR Field 3 min algorithm flux= 10.574 MilliJy iter= 332 3 3 10-APR-2009 00:33:45 IMAGR Field 3 Clean flux density= 162.297 MilliJy 332 comps 3 3 10-APR-2009 00:33:45 IMAGR Total Cleaned flux density = 10.205 Jy 2267 comps 3 2 10-APR-2009 00:33:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:33:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:33:50 IMAGR Field 5 min = -13.7 MilliJy,max = 14.7 MilliJy 3 3 10-APR-2009 00:33:50 IMAGR TRY ANOTHER FIELD: this is 1.098E-02 < Second best 1.190E-02 3 4 10-APR-2009 00:33:53 IMAGR Field 7 min = -13.7 MilliJy,max = 15.6 MilliJy 3 2 10-APR-2009 00:33:56 IMAGR BGC Clean: using 103 cell beam + residuals > 9.80 MilliJy 3 2 10-APR-2009 00:33:58 IMAGR 1222 Residual map points loaded 3 4 10-APR-2009 00:33:58 IMAGR Field 7 min algorithm flux= -10.517 MilliJy iter= 346 3 3 10-APR-2009 00:33:58 IMAGR Field 7 Clean flux density= 222.858 MilliJy 346 comps 3 3 10-APR-2009 00:33:58 IMAGR Total Cleaned flux density = 10.227 Jy 2435 comps 3 2 10-APR-2009 00:33:58 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:33:58 IMAGR I Polarization model processed 3 4 10-APR-2009 00:34:01 IMAGR Field 6 min = -13.2 MilliJy,max = 12.3 MilliJy 3 3 10-APR-2009 00:34:01 IMAGR TRY ANOTHER FIELD: this is 1.037E-02 < Second best 1.141E-02 3 4 10-APR-2009 00:34:04 IMAGR Field 4 min = -13.9 MilliJy,max = 15.2 MilliJy 3 2 10-APR-2009 00:34:07 IMAGR BGC Clean: using 103 cell beam + residuals > 9.44 MilliJy 3 2 10-APR-2009 00:34:08 IMAGR 436 Residual map points loaded 3 4 10-APR-2009 00:34:08 IMAGR Field 4 min algorithm flux= -9.809 MilliJy iter= 403 3 3 10-APR-2009 00:34:08 IMAGR Field 4 Clean flux density= 68.239 MilliJy 403 comps 3 3 10-APR-2009 00:34:08 IMAGR Total Cleaned flux density = 10.246 Jy 2530 comps 3 2 10-APR-2009 00:34:08 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:34:08 IMAGR I Polarization model processed 3 4 10-APR-2009 00:34:11 IMAGR Field 1 min = -14.2 MilliJy,max = 12.9 MilliJy 3 3 10-APR-2009 00:34:11 IMAGR TRY ANOTHER FIELD: this is 1.030E-02 < Second best 1.098E-02 3 4 10-APR-2009 00:34:14 IMAGR Field 5 min = -13.2 MilliJy,max = 13.9 MilliJy 3 2 10-APR-2009 00:34:17 IMAGR BGC Clean: using 103 cell beam + residuals > 9.05 MilliJy 3 2 10-APR-2009 00:34:17 IMAGR 1218 Residual map points loaded 3 4 10-APR-2009 00:34:17 IMAGR Field 5 min algorithm flux= 9.678 MilliJy iter= 433 3 3 10-APR-2009 00:34:17 IMAGR Field 5 Clean flux density= 75.552 MilliJy 433 comps 3 3 10-APR-2009 00:34:17 IMAGR Total Cleaned flux density = 10.268 Jy 2706 comps 3 2 10-APR-2009 00:34:18 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:34:18 IMAGR I Polarization model processed 3 4 10-APR-2009 00:34:21 IMAGR Field 2 min = -13.3 MilliJy,max = 13.5 MilliJy 3 3 10-APR-2009 00:34:25 IMAGR TRY ANOTHER FIELD: this is 9.615E-03 < Second best 1.043E-02 3 4 10-APR-2009 00:34:25 IMAGR Field 8 min = -8.4 MilliJy,max = 8.9 MilliJy 3 3 10-APR-2009 00:34:25 IMAGR TRY ANOTHER FIELD: this is 8.339E-03 < Second best 1.037E-02 3 4 10-APR-2009 00:34:28 IMAGR Field 6 min = -12.9 MilliJy,max = 11.6 MilliJy 3 2 10-APR-2009 00:34:31 IMAGR BGC Clean: using 103 cell beam + residuals > 8.68 MilliJy 3 2 10-APR-2009 00:34:31 IMAGR 523 Residual map points loaded 3 4 10-APR-2009 00:34:31 IMAGR Field 6 min algorithm flux= 9.045 MilliJy iter= 399 3 3 10-APR-2009 00:34:31 IMAGR Field 6 Clean flux density= -11.544 MilliJy 399 comps 3 3 10-APR-2009 00:34:31 IMAGR Total Cleaned flux density = 10.272 Jy 2819 comps 3 2 10-APR-2009 00:34:31 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:34:31 IMAGR I Polarization model processed 3 4 10-APR-2009 00:34:34 IMAGR Field 1 min = -12.8 MilliJy,max = 11.6 MilliJy 3 3 10-APR-2009 00:34:34 IMAGR TRY ANOTHER FIELD: this is 9.447E-03 < Second best 1.013E-02 3 4 10-APR-2009 00:34:38 IMAGR Field 3 min = -12.6 MilliJy,max = 14.4 MilliJy 3 3 10-APR-2009 00:34:38 IMAGR TRY ANOTHER FIELD: this is 9.336E-03 < Second best 1.007E-02 3 4 10-APR-2009 00:34:41 IMAGR Field 7 min = -11.1 MilliJy,max = 12.8 MilliJy 3 3 10-APR-2009 00:34:41 IMAGR TRY ANOTHER FIELD: this is 9.126E-03 < Second best 9.615E-03 3 4 10-APR-2009 00:34:44 IMAGR Field 2 min = -13.0 MilliJy,max = 13.6 MilliJy 3 2 10-APR-2009 00:34:47 IMAGR BGC Clean: using 103 cell beam + residuals > 8.10 MilliJy 3 2 10-APR-2009 00:34:47 IMAGR 1485 Residual map points loaded 3 4 10-APR-2009 00:34:47 IMAGR Field 2 min algorithm flux= 8.648 MilliJy iter= 465 3 3 10-APR-2009 00:34:47 IMAGR Field 2 Clean flux density= 11.764 MilliJy 465 comps 3 3 10-APR-2009 00:34:47 IMAGR Total Cleaned flux density = 10.278 Jy 3012 comps 3 2 10-APR-2009 00:34:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:34:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:34:50 IMAGR Field 1 min = -11.8 MilliJy,max = 11.3 MilliJy 3 2 10-APR-2009 00:34:55 IMAGR BGC Clean: using 103 cell beam + residuals > 8.08 MilliJy 3 2 10-APR-2009 00:35:00 IMAGR 291 Residual map points loaded 3 4 10-APR-2009 00:35:00 IMAGR Field 1 min algorithm flux= -8.319 MilliJy iter= 718 3 3 10-APR-2009 00:35:00 IMAGR Field 1 Clean flux density= 9.766 Jy 718 comps 3 3 10-APR-2009 00:35:00 IMAGR Total Cleaned flux density = 10.296 Jy 3096 comps 3 2 10-APR-2009 00:35:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:35:00 IMAGR I Polarization model processed 3 4 10-APR-2009 00:35:03 IMAGR Field 4 min = -11.4 MilliJy,max = 12.0 MilliJy 3 3 10-APR-2009 00:35:03 IMAGR TRY ANOTHER FIELD: this is 8.828E-03 < Second best 9.336E-03 3 4 10-APR-2009 00:35:06 IMAGR Field 3 min = -11.6 MilliJy,max = 13.0 MilliJy 3 2 10-APR-2009 00:35:09 IMAGR BGC Clean: using 103 cell beam + residuals > 7.81 MilliJy 3 2 10-APR-2009 00:35:09 IMAGR 756 Residual map points loaded 3 4 10-APR-2009 00:35:09 IMAGR Field 3 min algorithm flux= 8.148 MilliJy iter= 465 3 3 10-APR-2009 00:35:09 IMAGR Field 3 Clean flux density= 184.812 MilliJy 465 comps 3 3 10-APR-2009 00:35:09 IMAGR Total Cleaned flux density = 10.318 Jy 3229 comps 3 2 10-APR-2009 00:35:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:35:09 IMAGR I Polarization model processed 3 4 10-APR-2009 00:35:12 IMAGR Field 5 min = -10.6 MilliJy,max = 11.7 MilliJy 3 3 10-APR-2009 00:35:12 IMAGR TRY ANOTHER FIELD: this is 8.188E-03 < Second best 9.126E-03 3 4 10-APR-2009 00:35:15 IMAGR Field 7 min = -10.3 MilliJy,max = 11.5 MilliJy 3 2 10-APR-2009 00:35:18 IMAGR BGC Clean: using 103 cell beam + residuals > 7.39 MilliJy 3 2 10-APR-2009 00:35:19 IMAGR 775 Residual map points loaded 3 4 10-APR-2009 00:35:19 IMAGR Field 7 min algorithm flux= 7.730 MilliJy iter= 490 3 3 10-APR-2009 00:35:19 IMAGR Field 7 Clean flux density= 246.838 MilliJy 490 comps 3 3 10-APR-2009 00:35:19 IMAGR Total Cleaned flux density = 10.342 Jy 3373 comps 3 2 10-APR-2009 00:35:19 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:35:19 IMAGR I Polarization model processed 3 4 10-APR-2009 00:35:22 IMAGR Field 4 min = -10.9 MilliJy,max = 11.5 MilliJy 3 2 10-APR-2009 00:35:25 IMAGR BGC Clean: using 103 cell beam + residuals > 7.38 MilliJy 3 2 10-APR-2009 00:35:25 IMAGR 376 Residual map points loaded 3 4 10-APR-2009 00:35:26 IMAGR Field 4 min algorithm flux= -7.622 MilliJy iter= 512 3 3 10-APR-2009 00:35:26 IMAGR Field 4 Clean flux density= 56.237 MilliJy 512 comps 3 3 10-APR-2009 00:35:26 IMAGR Total Cleaned flux density = 10.330 Jy 3482 comps 3 2 10-APR-2009 00:35:26 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:35:26 IMAGR I Polarization model processed 3 4 10-APR-2009 00:35:29 IMAGR Field 6 min = -9.4 MilliJy,max = 10.2 MilliJy 3 3 10-APR-2009 00:35:29 IMAGR TRY ANOTHER FIELD: this is 7.757E-03 < Second best 8.339E-03 3 4 10-APR-2009 00:35:29 IMAGR Field 8 min = -6.7 MilliJy,max = 7.2 MilliJy 3 3 10-APR-2009 00:35:29 IMAGR TRY ANOTHER FIELD: this is 6.601E-03 < Second best 8.288E-03 3 4 10-APR-2009 00:35:32 IMAGR Field 2 min = -11.2 MilliJy,max = 11.3 MilliJy 3 3 10-APR-2009 00:35:32 IMAGR TRY ANOTHER FIELD: this is 7.607E-03 < Second best 8.188E-03 3 4 10-APR-2009 00:35:35 IMAGR Field 5 min = -10.3 MilliJy,max = 11.0 MilliJy 3 2 10-APR-2009 00:35:38 IMAGR BGC Clean: using 103 cell beam + residuals > 6.84 MilliJy 3 2 10-APR-2009 00:35:38 IMAGR 1137 Residual map points loaded 3 4 10-APR-2009 00:35:38 IMAGR Field 5 min algorithm flux= 7.222 MilliJy iter= 628 3 3 10-APR-2009 00:35:38 IMAGR Field 5 Clean flux density= 101.899 MilliJy 628 comps 3 3 10-APR-2009 00:35:38 IMAGR Total Cleaned flux density = 10.356 Jy 3677 comps 3 2 10-APR-2009 00:35:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:35:38 IMAGR I Polarization model processed 3 4 10-APR-2009 00:35:42 IMAGR Field 1 min = -10.2 MilliJy,max = 9.8 MilliJy 3 3 10-APR-2009 00:35:42 IMAGR TRY ANOTHER FIELD: this is 7.280E-03 < Second best 7.808E-03 3 4 10-APR-2009 00:35:45 IMAGR Field 3 min = -10.6 MilliJy,max = 11.3 MilliJy 3 3 10-APR-2009 00:35:45 IMAGR TRY ANOTHER FIELD: this is 7.176E-03 < Second best 7.757E-03 3 4 10-APR-2009 00:35:48 IMAGR Field 6 min = -9.6 MilliJy,max = 10.3 MilliJy 3 2 10-APR-2009 00:35:51 IMAGR BGC Clean: using 103 cell beam + residuals > 6.46 MilliJy 3 2 10-APR-2009 00:35:51 IMAGR 1791 Residual map points loaded 3 4 10-APR-2009 00:35:51 IMAGR Field 6 min algorithm flux= -6.881 MilliJy iter= 636 3 3 10-APR-2009 00:35:51 IMAGR Field 6 Clean flux density= -868.584 MicroJy 636 comps 3 3 10-APR-2009 00:35:51 IMAGR Total Cleaned flux density = 10.367 Jy 3914 comps 3 2 10-APR-2009 00:35:51 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:35:51 IMAGR I Polarization model processed 3 4 10-APR-2009 00:35:54 IMAGR Field 2 min = -10.5 MilliJy,max = 10.7 MilliJy 3 2 10-APR-2009 00:35:57 IMAGR BGC Clean: using 103 cell beam + residuals > 6.44 MilliJy 3 2 10-APR-2009 00:35:58 IMAGR 450 Residual map points loaded 3 4 10-APR-2009 00:35:58 IMAGR Field 2 min algorithm flux= 6.649 MilliJy iter= 591 3 3 10-APR-2009 00:35:58 IMAGR Field 2 Clean flux density= 34.954 MilliJy 591 comps 3 3 10-APR-2009 00:35:58 IMAGR Total Cleaned flux density = 10.390 Jy 4040 comps 3 2 10-APR-2009 00:35:58 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:35:58 IMAGR I Polarization model processed 3 4 10-APR-2009 00:36:01 IMAGR Field 7 min = -8.6 MilliJy,max = 9.8 MilliJy 3 3 10-APR-2009 00:36:01 IMAGR TRY ANOTHER FIELD: this is 6.620E-03 < Second best 7.301E-03 3 4 10-APR-2009 00:36:06 IMAGR Field 4 min = -9.3 MilliJy,max = 10.1 MilliJy 3 3 10-APR-2009 00:36:06 IMAGR TRY ANOTHER FIELD: this is 6.779E-03 < Second best 7.280E-03 3 4 10-APR-2009 00:36:10 IMAGR Field 1 min = -9.2 MilliJy,max = 9.5 MilliJy 3 3 10-APR-2009 00:36:11 IMAGR TRY ANOTHER FIELD: this is 6.760E-03 < Second best 7.176E-03 3 4 10-APR-2009 00:36:15 IMAGR Field 3 min = -10.1 MilliJy,max = 11.1 MilliJy 3 2 10-APR-2009 00:36:18 IMAGR BGC Clean: using 103 cell beam + residuals > 6.01 MilliJy 3 2 10-APR-2009 00:36:20 IMAGR 1695 Residual map points loaded 3 4 10-APR-2009 00:36:21 IMAGR Field 3 min algorithm flux= 6.366 MilliJy iter= 706 3 3 10-APR-2009 00:36:21 IMAGR Field 3 Clean flux density= 208.001 MilliJy 706 comps 3 3 10-APR-2009 00:36:21 IMAGR Total Cleaned flux density = 10.413 Jy 4281 comps 3 2 10-APR-2009 00:36:21 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:36:21 IMAGR I Polarization model processed 3 4 10-APR-2009 00:36:24 IMAGR Field 5 min = -8.4 MilliJy,max = 9.7 MilliJy 3 3 10-APR-2009 00:36:24 IMAGR TRY ANOTHER FIELD: this is 6.341E-03 < Second best 6.779E-03 3 4 10-APR-2009 00:36:27 IMAGR Field 4 min = -9.3 MilliJy,max = 9.5 MilliJy 3 2 10-APR-2009 00:36:33 IMAGR BGC Clean: using 103 cell beam + residuals > 5.80 MilliJy 3 2 10-APR-2009 00:36:34 IMAGR 1167 Residual map points loaded 3 4 10-APR-2009 00:36:36 IMAGR Field 4 min algorithm flux= 6.102 MilliJy iter= 737 3 3 10-APR-2009 00:36:36 IMAGR Field 4 Clean flux density= 65.785 MilliJy 737 comps 3 3 10-APR-2009 00:36:36 IMAGR Total Cleaned flux density = 10.423 Jy 4506 comps 3 2 10-APR-2009 00:36:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:36:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:36:39 IMAGR Field 1 min = -8.5 MilliJy,max = 8.7 MilliJy 3 3 10-APR-2009 00:36:39 IMAGR TRY ANOTHER FIELD: this is 6.174E-03 < Second best 6.620E-03 3 4 10-APR-2009 00:36:42 IMAGR Field 7 min = -8.3 MilliJy,max = 9.2 MilliJy 3 2 10-APR-2009 00:36:45 IMAGR BGC Clean: using 103 cell beam + residuals > 5.76 MilliJy 3 2 10-APR-2009 00:36:47 IMAGR 240 Residual map points loaded 3 4 10-APR-2009 00:36:47 IMAGR Field 7 min algorithm flux= 5.869 MilliJy iter= 572 3 3 10-APR-2009 00:36:47 IMAGR Field 7 Clean flux density= 242.039 MilliJy 572 comps 3 3 10-APR-2009 00:36:47 IMAGR Total Cleaned flux density = 10.418 Jy 4588 comps 3 2 10-APR-2009 00:36:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:36:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:36:47 IMAGR Field 8 min = -5.3 MilliJy,max = 5.5 MilliJy 3 3 10-APR-2009 00:36:47 IMAGR TRY ANOTHER FIELD: this is 5.044E-03 < Second best 6.595E-03 3 4 10-APR-2009 00:36:50 IMAGR Field 6 min = -8.4 MilliJy,max = 8.6 MilliJy 3 2 10-APR-2009 00:36:53 IMAGR BGC Clean: using 103 cell beam + residuals > 5.52 MilliJy 3 2 10-APR-2009 00:36:55 IMAGR 179 Residual map points loaded 3 4 10-APR-2009 00:36:55 IMAGR Field 6 min algorithm flux= 5.604 MilliJy iter= 701 3 3 10-APR-2009 00:36:55 IMAGR Field 6 Clean flux density= 724.464 MicroJy 701 comps 3 3 10-APR-2009 00:36:55 IMAGR Total Cleaned flux density = 10.420 Jy 4653 comps 3 2 10-APR-2009 00:36:55 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:36:55 IMAGR I Polarization model processed 3 4 10-APR-2009 00:36:58 IMAGR Field 2 min = -8.7 MilliJy,max = 8.2 MilliJy 3 3 10-APR-2009 00:36:58 IMAGR TRY ANOTHER FIELD: this is 5.957E-03 < Second best 6.341E-03 3 4 10-APR-2009 00:37:01 IMAGR Field 5 min = -8.3 MilliJy,max = 8.8 MilliJy 3 2 10-APR-2009 00:37:04 IMAGR BGC Clean: using 103 cell beam + residuals > 5.32 MilliJy 3 2 10-APR-2009 00:37:07 IMAGR 766 Residual map points loaded 3 4 10-APR-2009 00:37:07 IMAGR Field 5 min algorithm flux= 5.520 MilliJy iter= 802 3 3 10-APR-2009 00:37:07 IMAGR Field 5 Clean flux density= 110.107 MilliJy 802 comps 3 3 10-APR-2009 00:37:07 IMAGR Total Cleaned flux density = 10.428 Jy 4827 comps 3 2 10-APR-2009 00:37:07 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:37:07 IMAGR I Polarization model processed 3 4 10-APR-2009 00:37:10 IMAGR Field 1 min = -7.7 MilliJy,max = 8.2 MilliJy 3 3 10-APR-2009 00:37:10 IMAGR TRY ANOTHER FIELD: this is 5.798E-03 < Second best 6.101E-03 3 4 10-APR-2009 00:37:13 IMAGR Field 3 min = -8.6 MilliJy,max = 9.3 MilliJy 3 2 10-APR-2009 00:37:16 IMAGR BGC Clean: using 103 cell beam + residuals > 5.07 MilliJy 3 2 10-APR-2009 00:37:16 IMAGR 476 Residual map points loaded 3 4 10-APR-2009 00:37:16 IMAGR Field 3 min algorithm flux= 5.214 MilliJy iter= 840 3 3 10-APR-2009 00:37:16 IMAGR Field 3 Clean flux density= 199.191 MilliJy 840 comps 3 3 10-APR-2009 00:37:16 IMAGR Total Cleaned flux density = 10.419 Jy 4961 comps 3 2 10-APR-2009 00:37:17 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:37:17 IMAGR I Polarization model processed 3 4 10-APR-2009 00:37:21 IMAGR Field 2 min = -8.2 MilliJy,max = 7.7 MilliJy 3 2 10-APR-2009 00:37:24 IMAGR BGC Clean: using 103 cell beam + residuals > 5.05 MilliJy 3 2 10-APR-2009 00:37:27 IMAGR 367 Residual map points loaded 3 4 10-APR-2009 00:37:27 IMAGR Field 2 min algorithm flux= 5.170 MilliJy iter= 710 3 3 10-APR-2009 00:37:27 IMAGR Field 2 Clean flux density= 46.230 MilliJy 710 comps 3 3 10-APR-2009 00:37:27 IMAGR Total Cleaned flux density = 10.430 Jy 5080 comps 3 2 10-APR-2009 00:37:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:37:27 IMAGR I Polarization model processed 3 4 10-APR-2009 00:37:30 IMAGR Field 4 min = -7.9 MilliJy,max = 7.9 MilliJy 3 3 10-APR-2009 00:37:30 IMAGR TRY ANOTHER FIELD: this is 5.475E-03 < Second best 5.798E-03 3 4 10-APR-2009 00:37:33 IMAGR Field 1 min = -7.4 MilliJy,max = 7.8 MilliJy 3 2 10-APR-2009 00:37:37 IMAGR BGC Clean: using 103 cell beam + residuals > 4.82 MilliJy 3 2 10-APR-2009 00:37:41 IMAGR 550 Residual map points loaded 3 4 10-APR-2009 00:37:43 IMAGR Field 1 min algorithm flux= 4.967 MilliJy iter= 872 3 3 10-APR-2009 00:37:43 IMAGR Field 1 Clean flux density= 9.775 Jy 872 comps 3 3 10-APR-2009 00:37:43 IMAGR Total Cleaned flux density = 10.439 Jy 5234 comps 3 2 10-APR-2009 00:37:43 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:37:43 IMAGR I Polarization model processed 3 4 10-APR-2009 00:37:48 IMAGR Field 7 min = -7.5 MilliJy,max = 7.8 MilliJy 3 2 10-APR-2009 00:37:52 IMAGR BGC Clean: using 103 cell beam + residuals > 4.70 MilliJy 3 2 10-APR-2009 00:37:56 IMAGR 831 Residual map points loaded 3 4 10-APR-2009 00:37:58 IMAGR Field 7 min algorithm flux= 4.878 MilliJy iter= 764 3 3 10-APR-2009 00:37:58 IMAGR Field 7 Clean flux density= 259.335 MilliJy 764 comps 3 3 10-APR-2009 00:37:58 IMAGR Total Cleaned flux density = 10.456 Jy 5426 comps 3 2 10-APR-2009 00:38:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:38:16 IMAGR I Polarization model processed 3 4 10-APR-2009 00:38:21 IMAGR Field 4 min = -7.3 MilliJy,max = 7.4 MilliJy 3 2 10-APR-2009 00:38:27 IMAGR BGC Clean: using 103 cell beam + residuals > 4.69 MilliJy 3 2 10-APR-2009 00:38:30 IMAGR 250 Residual map points loaded 3 4 10-APR-2009 00:38:30 IMAGR Field 4 min algorithm flux= -4.769 MilliJy iter= 828 3 3 10-APR-2009 00:38:30 IMAGR Field 4 Clean flux density= 67.412 MilliJy 828 comps 3 3 10-APR-2009 00:38:30 IMAGR Total Cleaned flux density = 10.458 Jy 5517 comps 3 2 10-APR-2009 00:38:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:38:30 IMAGR I Polarization model processed 3 4 10-APR-2009 00:38:34 IMAGR Field 6 min = -7.5 MilliJy,max = 7.6 MilliJy 3 2 10-APR-2009 00:38:37 IMAGR BGC Clean: using 103 cell beam + residuals > 4.59 MilliJy 3 2 10-APR-2009 00:38:38 IMAGR 590 Residual map points loaded 3 4 10-APR-2009 00:38:39 IMAGR Field 6 min algorithm flux= -4.714 MilliJy iter= 842 3 3 10-APR-2009 00:38:39 IMAGR Field 6 Clean flux density= -1.470 MilliJy 842 comps 3 3 10-APR-2009 00:38:39 IMAGR Total Cleaned flux density = 10.456 Jy 5658 comps 3 2 10-APR-2009 00:38:39 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:38:39 IMAGR I Polarization model processed 3 4 10-APR-2009 00:38:43 IMAGR Field 5 min = -6.9 MilliJy,max = 7.3 MilliJy 3 2 10-APR-2009 00:38:46 IMAGR BGC Clean: using 103 cell beam + residuals > 4.42 MilliJy 3 2 10-APR-2009 00:38:48 IMAGR 336 Residual map points loaded 3 4 10-APR-2009 00:38:48 IMAGR Field 5 min algorithm flux= 4.519 MilliJy iter= 917 3 3 10-APR-2009 00:38:48 IMAGR Field 5 Clean flux density= 116.508 MilliJy 917 comps 3 3 10-APR-2009 00:38:48 IMAGR Total Cleaned flux density = 10.462 Jy 5773 comps 3 2 10-APR-2009 00:38:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:38:48 IMAGR I Polarization model processed 3 4 10-APR-2009 00:38:48 IMAGR Field 8 min = -4.5 MilliJy,max = 4.8 MilliJy 3 3 10-APR-2009 00:38:48 IMAGR TRY ANOTHER FIELD: this is 4.407E-03 < Second best 4.998E-03 3 4 10-APR-2009 00:38:52 IMAGR Field 3 min = -8.1 MilliJy,max = 8.8 MilliJy 3 2 10-APR-2009 00:38:55 IMAGR BGC Clean: using 103 cell beam + residuals > 4.32 MilliJy 3 2 10-APR-2009 00:38:55 IMAGR 849 Residual map points loaded 3 4 10-APR-2009 00:38:55 IMAGR Field 3 min algorithm flux= -4.459 MilliJy iter= 1021 3 3 10-APR-2009 00:38:55 IMAGR Field 3 Clean flux density= 218.159 MilliJy 1021 comps 3 3 10-APR-2009 00:38:55 IMAGR Total Cleaned flux density = 10.481 Jy 5954 comps 3 2 10-APR-2009 00:38:55 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:38:56 IMAGR I Polarization model processed 3 4 10-APR-2009 00:39:00 IMAGR Field 2 min = -7.2 MilliJy,max = 6.6 MilliJy 3 2 10-APR-2009 00:39:03 IMAGR BGC Clean: using 103 cell beam + residuals > 4.22 MilliJy 3 2 10-APR-2009 00:39:04 IMAGR 399 Residual map points loaded 3 4 10-APR-2009 00:39:04 IMAGR Field 2 min algorithm flux= -4.312 MilliJy iter= 838 3 3 10-APR-2009 00:39:04 IMAGR Field 2 Clean flux density= 48.152 MilliJy 838 comps 3 3 10-APR-2009 00:39:04 IMAGR Total Cleaned flux density = 10.483 Jy 6082 comps 3 2 10-APR-2009 00:39:04 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:39:04 IMAGR I Polarization model processed 3 4 10-APR-2009 00:39:07 IMAGR Field 1 min = -6.2 MilliJy,max = 5.9 MilliJy 3 3 10-APR-2009 00:39:07 IMAGR TRY ANOTHER FIELD: this is 4.251E-03 < Second best 4.675E-03 3 4 10-APR-2009 00:39:11 IMAGR Field 7 min = -6.6 MilliJy,max = 6.5 MilliJy 3 2 10-APR-2009 00:39:14 IMAGR BGC Clean: using 103 cell beam + residuals > 4.02 MilliJy 3 2 10-APR-2009 00:39:15 IMAGR 482 Residual map points loaded 3 4 10-APR-2009 00:39:15 IMAGR Field 7 min algorithm flux= -4.131 MilliJy iter= 924 3 3 10-APR-2009 00:39:15 IMAGR Field 7 Clean flux density= 238.001 MilliJy 924 comps 3 3 10-APR-2009 00:39:15 IMAGR Total Cleaned flux density = 10.462 Jy 6242 comps 3 2 10-APR-2009 00:39:15 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:39:15 IMAGR I Polarization model processed 3 4 10-APR-2009 00:39:19 IMAGR Field 4 min = -6.5 MilliJy,max = 6.7 MilliJy 3 3 10-APR-2009 00:39:19 IMAGR TRY ANOTHER FIELD: this is 4.294E-03 < Second best 4.517E-03 3 4 10-APR-2009 00:39:22 IMAGR Field 6 min = -6.8 MilliJy,max = 7.1 MilliJy 3 2 10-APR-2009 00:39:25 IMAGR BGC Clean: using 103 cell beam + residuals > 3.85 MilliJy 3 2 10-APR-2009 00:39:25 IMAGR 1396 Residual map points loaded 3 4 10-APR-2009 00:39:25 IMAGR Field 6 min algorithm flux= 4.010 MilliJy iter= 1095 3 3 10-APR-2009 00:39:25 IMAGR Field 6 Clean flux density= 594.393 MicroJy 1095 comps 3 3 10-APR-2009 00:39:25 IMAGR Total Cleaned flux density = 10.464 Jy 6495 comps 3 2 10-APR-2009 00:39:25 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:39:25 IMAGR I Polarization model processed 3 4 10-APR-2009 00:39:26 IMAGR Field 8 min = -3.8 MilliJy,max = 4.4 MilliJy 3 3 10-APR-2009 00:39:26 IMAGR TRY ANOTHER FIELD: this is 3.519E-03 < Second best 4.331E-03 3 4 10-APR-2009 00:39:29 IMAGR Field 5 min = -6.1 MilliJy,max = 6.3 MilliJy 3 2 10-APR-2009 00:39:32 IMAGR BGC Clean: using 103 cell beam + residuals > 3.78 MilliJy 3 2 10-APR-2009 00:39:32 IMAGR 556 Residual map points loaded 3 4 10-APR-2009 00:39:32 IMAGR Field 5 min algorithm flux= 3.880 MilliJy iter= 1088 3 3 10-APR-2009 00:39:32 IMAGR Field 5 Clean flux density= 117.587 MilliJy 1088 comps 3 3 10-APR-2009 00:39:32 IMAGR Total Cleaned flux density = 10.465 Jy 6666 comps 3 2 10-APR-2009 00:39:32 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:39:32 IMAGR I Polarization model processed 3 4 10-APR-2009 00:39:35 IMAGR Field 4 min = -6.2 MilliJy,max = 6.5 MilliJy 3 2 10-APR-2009 00:39:38 IMAGR BGC Clean: using 103 cell beam + residuals > 3.76 MilliJy 3 2 10-APR-2009 00:39:40 IMAGR 365 Residual map points loaded 3 4 10-APR-2009 00:39:41 IMAGR Field 4 min algorithm flux= 3.843 MilliJy iter= 963 3 3 10-APR-2009 00:39:41 IMAGR Field 4 Clean flux density= 73.239 MilliJy 963 comps 3 3 10-APR-2009 00:39:41 IMAGR Total Cleaned flux density = 10.471 Jy 6801 comps 3 2 10-APR-2009 00:39:41 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:39:41 IMAGR I Polarization model processed 3 4 10-APR-2009 00:39:44 IMAGR Field 3 min = -6.6 MilliJy,max = 7.9 MilliJy 3 2 10-APR-2009 00:39:47 IMAGR BGC Clean: using 103 cell beam + residuals > 3.64 MilliJy 3 2 10-APR-2009 00:39:47 IMAGR 804 Residual map points loaded 3 4 10-APR-2009 00:39:47 IMAGR Field 3 min algorithm flux= 3.742 MilliJy iter= 1212 3 3 10-APR-2009 00:39:47 IMAGR Field 3 Clean flux density= 219.043 MilliJy 1212 comps 3 3 10-APR-2009 00:39:47 IMAGR Total Cleaned flux density = 10.471 Jy 6992 comps 3 2 10-APR-2009 00:39:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:39:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:39:51 IMAGR Field 1 min = -5.5 MilliJy,max = 5.1 MilliJy 3 3 10-APR-2009 00:39:51 IMAGR TRY ANOTHER FIELD: this is 3.704E-03 < Second best 4.134E-03 3 4 10-APR-2009 00:39:55 IMAGR Field 2 min = -6.3 MilliJy,max = 5.8 MilliJy 3 2 10-APR-2009 00:39:57 IMAGR BGC Clean: using 103 cell beam + residuals > 3.52 MilliJy 3 2 10-APR-2009 00:39:58 IMAGR 463 Residual map points loaded 3 4 10-APR-2009 00:39:58 IMAGR Field 2 min algorithm flux= -3.601 MilliJy iter= 992 3 3 10-APR-2009 00:39:58 IMAGR Field 2 Clean flux density= 60.598 MilliJy 992 comps 3 3 10-APR-2009 00:39:58 IMAGR Total Cleaned flux density = 10.484 Jy 7146 comps 3 2 10-APR-2009 00:39:58 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:39:58 IMAGR I Polarization model processed 3 4 10-APR-2009 00:40:01 IMAGR Field 7 min = -5.5 MilliJy,max = 5.4 MilliJy 3 2 10-APR-2009 00:40:05 IMAGR BGC Clean: using 103 cell beam + residuals > 3.44 MilliJy 3 2 10-APR-2009 00:40:07 IMAGR 274 Residual map points loaded 3 4 10-APR-2009 00:40:07 IMAGR Field 7 min algorithm flux= -3.499 MilliJy iter= 1038 3 3 10-APR-2009 00:40:07 IMAGR Field 7 Clean flux density= 235.040 MilliJy 1038 comps 3 3 10-APR-2009 00:40:07 IMAGR Total Cleaned flux density = 10.481 Jy 7260 comps 3 2 10-APR-2009 00:40:07 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:40:07 IMAGR I Polarization model processed 3 4 10-APR-2009 00:40:11 IMAGR Field 6 min = -5.9 MilliJy,max = 6.4 MilliJy 3 2 10-APR-2009 00:40:13 IMAGR BGC Clean: using 103 cell beam + residuals > 3.33 MilliJy 3 2 10-APR-2009 00:40:14 IMAGR 669 Residual map points loaded 3 4 10-APR-2009 00:40:14 IMAGR Field 6 min algorithm flux= -3.403 MilliJy iter= 1251 3 3 10-APR-2009 00:40:14 IMAGR Field 6 Clean flux density= 2.082 MilliJy 1251 comps 3 3 10-APR-2009 00:40:14 IMAGR Total Cleaned flux density = 10.482 Jy 7416 comps 3 2 10-APR-2009 00:40:14 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:40:14 IMAGR I Polarization model processed 3 4 10-APR-2009 00:40:17 IMAGR Field 5 min = -5.6 MilliJy,max = 5.5 MilliJy 3 2 10-APR-2009 00:40:21 IMAGR BGC Clean: using 103 cell beam + residuals > 3.25 MilliJy 3 2 10-APR-2009 00:40:22 IMAGR 474 Residual map points loaded 3 4 10-APR-2009 00:40:22 IMAGR Field 5 min algorithm flux= 3.323 MilliJy iter= 1251 3 3 10-APR-2009 00:40:22 IMAGR Field 5 Clean flux density= 123.383 MilliJy 1251 comps 3 3 10-APR-2009 00:40:22 IMAGR Total Cleaned flux density = 10.488 Jy 7579 comps 3 2 10-APR-2009 00:40:22 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:40:22 IMAGR I Polarization model processed 3 4 10-APR-2009 00:40:25 IMAGR Field 1 min = -4.7 MilliJy,max = 4.7 MilliJy 3 2 10-APR-2009 00:40:28 IMAGR BGC Clean: using 103 cell beam + residuals > 3.24 MilliJy 3 2 10-APR-2009 00:40:31 IMAGR 169 Residual map points loaded 3 4 10-APR-2009 00:40:32 IMAGR Field 1 min algorithm flux= 3.279 MilliJy iter= 955 3 3 10-APR-2009 00:40:32 IMAGR Field 1 Clean flux density= 9.783 Jy 955 comps 3 3 10-APR-2009 00:40:32 IMAGR Total Cleaned flux density = 10.497 Jy 7662 comps 3 2 10-APR-2009 00:40:32 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:40:32 IMAGR I Polarization model processed 3 4 10-APR-2009 00:40:35 IMAGR Field 4 min = -5.6 MilliJy,max = 5.5 MilliJy 3 2 10-APR-2009 00:40:38 IMAGR BGC Clean: using 103 cell beam + residuals > 3.17 MilliJy 3 2 10-APR-2009 00:40:38 IMAGR 560 Residual map points loaded 3 4 10-APR-2009 00:40:38 IMAGR Field 4 min algorithm flux= 3.244 MilliJy iter= 1134 3 3 10-APR-2009 00:40:38 IMAGR Field 4 Clean flux density= 72.940 MilliJy 1134 comps 3 3 10-APR-2009 00:40:38 IMAGR Total Cleaned flux density = 10.496 Jy 7833 comps 3 2 10-APR-2009 00:40:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:40:38 IMAGR I Polarization model processed 3 4 10-APR-2009 00:40:42 IMAGR Field 3 min = -5.7 MilliJy,max = 7.5 MilliJy 3 2 10-APR-2009 00:40:45 IMAGR BGC Clean: using 103 cell beam + residuals > 3.06 MilliJy 3 2 10-APR-2009 00:40:46 IMAGR 1210 Residual map points loaded 3 4 10-APR-2009 00:40:46 IMAGR Field 3 min algorithm flux= -3.160 MilliJy iter= 1461 3 3 10-APR-2009 00:40:46 IMAGR Field 3 Clean flux density= 213.415 MilliJy 1461 comps 3 3 10-APR-2009 00:40:46 IMAGR Total Cleaned flux density = 10.491 Jy 8082 comps 3 2 10-APR-2009 00:40:46 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:40:46 IMAGR I Polarization model processed 3 4 10-APR-2009 00:40:46 IMAGR Field 8 min = -3.0 MilliJy,max = 3.1 MilliJy 3 3 10-APR-2009 00:40:46 IMAGR TRY ANOTHER FIELD: this is 2.545E-03 < Second best 3.453E-03 3 4 10-APR-2009 00:40:49 IMAGR Field 2 min = -5.7 MilliJy,max = 5.2 MilliJy 3 2 10-APR-2009 00:40:52 IMAGR BGC Clean: using 103 cell beam + residuals > 2.99 MilliJy 3 2 10-APR-2009 00:40:52 IMAGR 408 Residual map points loaded 3 4 10-APR-2009 00:40:53 IMAGR Field 2 min algorithm flux= 3.042 MilliJy iter= 1127 3 3 10-APR-2009 00:40:53 IMAGR Field 2 Clean flux density= 64.097 MilliJy 1127 comps 3 3 10-APR-2009 00:40:53 IMAGR Total Cleaned flux density = 10.494 Jy 8217 comps 3 2 10-APR-2009 00:40:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:40:53 IMAGR I Polarization model processed 3 4 10-APR-2009 00:40:56 IMAGR Field 7 min = -5.0 MilliJy,max = 5.1 MilliJy 3 2 10-APR-2009 00:41:02 IMAGR BGC Clean: using 103 cell beam + residuals > 2.94 MilliJy 3 2 10-APR-2009 00:41:03 IMAGR 548 Residual map points loaded 3 4 10-APR-2009 00:41:03 IMAGR Field 7 min algorithm flux= 3.004 MilliJy iter= 1214 3 3 10-APR-2009 00:41:03 IMAGR Field 7 Clean flux density= 227.556 MilliJy 1214 comps 3 3 10-APR-2009 00:41:03 IMAGR Total Cleaned flux density = 10.487 Jy 8393 comps 3 2 10-APR-2009 00:41:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:03 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:06 IMAGR Field 6 min = -5.3 MilliJy,max = 5.8 MilliJy 3 2 10-APR-2009 00:41:08 IMAGR BGC Clean: using 103 cell beam + residuals > 2.87 MilliJy 3 2 10-APR-2009 00:41:09 IMAGR 877 Residual map points loaded 3 4 10-APR-2009 00:41:09 IMAGR Field 6 min algorithm flux= -2.937 MilliJy iter= 1439 3 3 10-APR-2009 00:41:09 IMAGR Field 6 Clean flux density= 350.422 MicroJy 1439 comps 3 3 10-APR-2009 00:41:09 IMAGR Total Cleaned flux density = 10.485 Jy 8581 comps 3 2 10-APR-2009 00:41:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:09 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:12 IMAGR Field 5 min = -4.8 MilliJy,max = 4.7 MilliJy 3 2 10-APR-2009 00:41:14 IMAGR BGC Clean: using 103 cell beam + residuals > 2.81 MilliJy 3 2 10-APR-2009 00:41:16 IMAGR 266 Residual map points loaded 3 4 10-APR-2009 00:41:16 IMAGR Field 5 min algorithm flux= 2.850 MilliJy iter= 1363 3 3 10-APR-2009 00:41:16 IMAGR Field 5 Clean flux density= 126.289 MilliJy 1363 comps 3 3 10-APR-2009 00:41:16 IMAGR Total Cleaned flux density = 10.488 Jy 8693 comps 3 2 10-APR-2009 00:41:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:16 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:19 IMAGR Field 1 min = -4.0 MilliJy,max = 4.1 MilliJy 3 2 10-APR-2009 00:41:22 IMAGR BGC Clean: using 103 cell beam + residuals > 2.78 MilliJy 3 2 10-APR-2009 00:41:22 IMAGR 112 Residual map points loaded 3 4 10-APR-2009 00:41:22 IMAGR Field 1 min algorithm flux= -2.802 MilliJy iter= 1015 3 3 10-APR-2009 00:41:22 IMAGR Field 1 Clean flux density= 9.786 Jy 1015 comps 3 3 10-APR-2009 00:41:22 IMAGR Total Cleaned flux density = 10.491 Jy 8753 comps 3 2 10-APR-2009 00:41:22 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:22 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:25 IMAGR Field 4 min = -4.7 MilliJy,max = 4.7 MilliJy 3 2 10-APR-2009 00:41:28 IMAGR BGC Clean: using 103 cell beam + residuals > 2.72 MilliJy 3 2 10-APR-2009 00:41:28 IMAGR 376 Residual map points loaded 3 4 10-APR-2009 00:41:28 IMAGR Field 4 min algorithm flux= -2.770 MilliJy iter= 1280 3 3 10-APR-2009 00:41:28 IMAGR Field 4 Clean flux density= 68.933 MilliJy 1280 comps 3 3 10-APR-2009 00:41:28 IMAGR Total Cleaned flux density = 10.487 Jy 8899 comps 3 2 10-APR-2009 00:41:28 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:28 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:31 IMAGR Field 3 min = -5.2 MilliJy,max = 6.9 MilliJy 3 2 10-APR-2009 00:41:34 IMAGR BGC Clean: using 103 cell beam + residuals > 2.63 MilliJy 3 2 10-APR-2009 00:41:34 IMAGR 1019 Residual map points loaded 3 4 10-APR-2009 00:41:34 IMAGR Field 3 min algorithm flux= -2.698 MilliJy iter= 1686 3 3 10-APR-2009 00:41:34 IMAGR Field 3 Clean flux density= 213.026 MilliJy 1686 comps 3 3 10-APR-2009 00:41:34 IMAGR Total Cleaned flux density = 10.486 Jy 9124 comps 3 2 10-APR-2009 00:41:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:34 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:37 IMAGR Field 2 min = -5.0 MilliJy,max = 4.6 MilliJy 3 2 10-APR-2009 00:41:40 IMAGR BGC Clean: using 103 cell beam + residuals > 2.58 MilliJy 3 2 10-APR-2009 00:41:40 IMAGR 577 Residual map points loaded 3 4 10-APR-2009 00:41:40 IMAGR Field 2 min algorithm flux= 2.637 MilliJy iter= 1310 3 3 10-APR-2009 00:41:40 IMAGR Field 2 Clean flux density= 62.836 MilliJy 1310 comps 3 3 10-APR-2009 00:41:40 IMAGR Total Cleaned flux density = 10.485 Jy 9307 comps 3 2 10-APR-2009 00:41:40 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:40 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:43 IMAGR Field 7 min = -4.4 MilliJy,max = 4.5 MilliJy 3 2 10-APR-2009 00:41:46 IMAGR BGC Clean: using 103 cell beam + residuals > 2.53 MilliJy 3 2 10-APR-2009 00:41:47 IMAGR 684 Residual map points loaded 3 4 10-APR-2009 00:41:47 IMAGR Field 7 min algorithm flux= -2.586 MilliJy iter= 1419 3 3 10-APR-2009 00:41:47 IMAGR Field 7 Clean flux density= 225.155 MilliJy 1419 comps 3 3 10-APR-2009 00:41:47 IMAGR Total Cleaned flux density = 10.483 Jy 9512 comps 3 2 10-APR-2009 00:41:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:50 IMAGR Field 6 min = -4.8 MilliJy,max = 5.2 MilliJy 3 2 10-APR-2009 00:41:53 IMAGR BGC Clean: using 103 cell beam + residuals > 2.46 MilliJy 3 2 10-APR-2009 00:41:53 IMAGR 1152 Residual map points loaded 3 4 10-APR-2009 00:41:53 IMAGR Field 6 min algorithm flux= 2.524 MilliJy iter= 1688 3 3 10-APR-2009 00:41:53 IMAGR Field 6 Clean flux density= 18.839 MicroJy 1688 comps 3 3 10-APR-2009 00:41:53 IMAGR Total Cleaned flux density = 10.482 Jy 9761 comps 3 2 10-APR-2009 00:41:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:53 IMAGR I Polarization model processed 3 4 10-APR-2009 00:41:56 IMAGR Field 5 min = -4.4 MilliJy,max = 4.1 MilliJy 3 2 10-APR-2009 00:41:59 IMAGR BGC Clean: using 103 cell beam + residuals > 2.42 MilliJy 3 2 10-APR-2009 00:41:59 IMAGR 595 Residual map points loaded 3 4 10-APR-2009 00:41:59 IMAGR Field 5 min algorithm flux= 2.470 MilliJy iter= 1554 3 3 10-APR-2009 00:41:59 IMAGR Field 5 Clean flux density= 124.414 MilliJy 1554 comps 3 3 10-APR-2009 00:41:59 IMAGR Total Cleaned flux density = 10.480 Jy 9952 comps 3 2 10-APR-2009 00:41:59 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:41:59 IMAGR I Polarization model processed 3 4 10-APR-2009 00:42:02 IMAGR Field 1 min = -3.4 MilliJy,max = 3.5 MilliJy 3 3 10-APR-2009 00:42:02 IMAGR TRY ANOTHER FIELD: this is 2.470E-03 < Second best 2.655E-03 3 4 10-APR-2009 00:42:05 IMAGR Field 4 min = -4.3 MilliJy,max = 4.1 MilliJy 3 2 10-APR-2009 00:42:08 IMAGR BGC Clean: using 103 cell beam + residuals > 2.36 MilliJy 3 2 10-APR-2009 00:42:08 IMAGR 562 Residual map points loaded 3 4 10-APR-2009 00:42:08 IMAGR Field 4 min algorithm flux= 2.407 MilliJy iter= 1472 3 3 10-APR-2009 00:42:08 IMAGR Field 4 Clean flux density= 67.845 MilliJy 1472 comps 3 3 10-APR-2009 00:42:08 IMAGR Total Cleaned flux density = 10.479 Jy 10144 comps 3 2 10-APR-2009 00:42:08 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:42:08 IMAGR I Polarization model processed 3 4 10-APR-2009 00:42:11 IMAGR Field 3 min = -5.0 MilliJy,max = 6.3 MilliJy 3 2 10-APR-2009 00:42:14 IMAGR BGC Clean: using 103 cell beam + residuals > 2.29 MilliJy 3 2 10-APR-2009 00:42:14 IMAGR 944 Residual map points loaded 3 4 10-APR-2009 00:42:14 IMAGR Field 3 min algorithm flux= -2.347 MilliJy iter= 1903 3 3 10-APR-2009 00:42:14 IMAGR Field 3 Clean flux density= 209.929 MilliJy 1903 comps 3 3 10-APR-2009 00:42:14 IMAGR Total Cleaned flux density = 10.476 Jy 10361 comps 3 2 10-APR-2009 00:42:14 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:42:14 IMAGR I Polarization model processed 3 4 10-APR-2009 00:42:14 IMAGR Field 8 min = -2.6 MilliJy,max = 2.4 MilliJy 3 3 10-APR-2009 00:42:14 IMAGR TRY ANOTHER FIELD: this is 1.975E-03 < Second best 2.528E-03 3 4 10-APR-2009 00:42:17 IMAGR Field 2 min = -4.5 MilliJy,max = 4.2 MilliJy 3 2 10-APR-2009 00:42:21 IMAGR BGC Clean: using 103 cell beam + residuals > 2.25 MilliJy 3 2 10-APR-2009 00:42:21 IMAGR 560 Residual map points loaded 3 4 10-APR-2009 00:42:21 IMAGR Field 2 min algorithm flux= -2.296 MilliJy iter= 1500 3 3 10-APR-2009 00:42:21 IMAGR Field 2 Clean flux density= 66.645 MilliJy 1500 comps 3 3 10-APR-2009 00:42:21 IMAGR Total Cleaned flux density = 10.480 Jy 10551 comps 3 2 10-APR-2009 00:42:21 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:42:21 IMAGR I Polarization model processed 3 4 10-APR-2009 00:42:24 IMAGR Field 7 min = -4.2 MilliJy,max = 4.1 MilliJy 3 2 10-APR-2009 00:42:27 IMAGR BGC Clean: using 103 cell beam + residuals > 2.20 MilliJy 3 2 10-APR-2009 00:42:27 IMAGR 426 Residual map points loaded 3 4 10-APR-2009 00:42:27 IMAGR Field 7 min algorithm flux= 2.238 MilliJy iter= 1573 3 3 10-APR-2009 00:42:27 IMAGR Field 7 Clean flux density= 229.787 MilliJy 1573 comps 3 3 10-APR-2009 00:42:27 IMAGR Total Cleaned flux density = 10.485 Jy 10705 comps 3 2 10-APR-2009 00:42:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:42:27 IMAGR I Polarization model processed 3 4 10-APR-2009 00:42:31 IMAGR Field 1 min = -3.2 MilliJy,max = 3.3 MilliJy 3 3 10-APR-2009 00:42:31 IMAGR TRY ANOTHER FIELD: this is 2.275E-03 < Second best 2.420E-03 3 4 10-APR-2009 00:42:34 IMAGR Field 6 min = -4.4 MilliJy,max = 4.8 MilliJy 3 2 10-APR-2009 00:42:36 IMAGR BGC Clean: using 103 cell beam + residuals > 2.13 MilliJy 3 2 10-APR-2009 00:42:36 IMAGR 1344 Residual map points loaded 3 4 10-APR-2009 00:42:37 IMAGR Field 6 min algorithm flux= 2.188 MilliJy iter= 1961 3 3 10-APR-2009 00:42:37 IMAGR Field 6 Clean flux density= 2.154 MilliJy 1961 comps 3 3 10-APR-2009 00:42:37 IMAGR Total Cleaned flux density = 10.487 Jy 10978 comps 3 2 10-APR-2009 00:42:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:42:38 IMAGR I Polarization model processed 3 4 10-APR-2009 00:42:41 IMAGR Field 5 min = -4.0 MilliJy,max = 3.8 MilliJy 3 2 10-APR-2009 00:42:44 IMAGR BGC Clean: using 103 cell beam + residuals > 2.09 MilliJy 3 2 10-APR-2009 00:42:44 IMAGR 645 Residual map points loaded 3 4 10-APR-2009 00:42:44 IMAGR Field 5 min algorithm flux= 2.131 MilliJy iter= 1763 3 3 10-APR-2009 00:42:44 IMAGR Field 5 Clean flux density= 124.078 MilliJy 1763 comps 3 3 10-APR-2009 00:42:44 IMAGR Total Cleaned flux density = 10.486 Jy 11187 comps 3 2 10-APR-2009 00:42:44 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:42:44 IMAGR I Polarization model processed 3 4 10-APR-2009 00:42:49 IMAGR Field 4 min = -3.8 MilliJy,max = 3.5 MilliJy 3 2 10-APR-2009 00:42:51 IMAGR BGC Clean: using 103 cell beam + residuals > 2.05 MilliJy 3 2 10-APR-2009 00:42:52 IMAGR 490 Residual map points loaded 3 4 10-APR-2009 00:42:52 IMAGR Field 4 min algorithm flux= -2.085 MilliJy iter= 1642 3 3 10-APR-2009 00:42:52 IMAGR Field 4 Clean flux density= 63.631 MilliJy 1642 comps 3 3 10-APR-2009 00:42:52 IMAGR Total Cleaned flux density = 10.482 Jy 11357 comps 3 2 10-APR-2009 00:42:52 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:42:52 IMAGR I Polarization model processed 3 4 10-APR-2009 00:42:55 IMAGR Field 1 min = -3.2 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:42:57 IMAGR BGC Clean: using 103 cell beam + residuals > 2.05 MilliJy 3 2 10-APR-2009 00:42:58 IMAGR 108 Residual map points loaded 3 4 10-APR-2009 00:42:58 IMAGR Field 1 min algorithm flux= -2.059 MilliJy iter= 1076 3 3 10-APR-2009 00:42:58 IMAGR Field 1 Clean flux density= 9.790 Jy 1076 comps 3 3 10-APR-2009 00:42:58 IMAGR Total Cleaned flux density = 10.486 Jy 11418 comps 3 2 10-APR-2009 00:42:58 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:42:58 IMAGR I Polarization model processed 3 4 10-APR-2009 00:43:01 IMAGR Field 3 min = -4.7 MilliJy,max = 5.7 MilliJy 3 2 10-APR-2009 00:43:04 IMAGR BGC Clean: using 103 cell beam + residuals > 1.99 MilliJy 3 2 10-APR-2009 00:43:05 IMAGR 1718 Residual map points loaded 3 4 10-APR-2009 00:43:05 IMAGR Field 3 min algorithm flux= 2.051 MilliJy iter= 2220 3 3 10-APR-2009 00:43:05 IMAGR Field 3 Clean flux density= 213.042 MilliJy 2220 comps 3 3 10-APR-2009 00:43:05 IMAGR Total Cleaned flux density = 10.489 Jy 11735 comps 3 2 10-APR-2009 00:43:05 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:43:05 IMAGR I Polarization model processed 3 4 10-APR-2009 00:43:09 IMAGR Field 2 min = -4.0 MilliJy,max = 3.7 MilliJy 3 2 10-APR-2009 00:43:13 IMAGR BGC Clean: using 103 cell beam + residuals > 1.96 MilliJy 3 2 10-APR-2009 00:43:13 IMAGR 678 Residual map points loaded 3 4 10-APR-2009 00:43:14 IMAGR Field 2 min algorithm flux= 1.993 MilliJy iter= 1706 3 3 10-APR-2009 00:43:14 IMAGR Field 2 Clean flux density= 70.235 MilliJy 1706 comps 3 3 10-APR-2009 00:43:14 IMAGR Total Cleaned flux density = 10.492 Jy 11941 comps 3 2 10-APR-2009 00:43:14 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:43:14 IMAGR I Polarization model processed 3 4 10-APR-2009 00:43:17 IMAGR Field 7 min = -3.6 MilliJy,max = 3.7 MilliJy 3 2 10-APR-2009 00:43:24 IMAGR BGC Clean: using 103 cell beam + residuals > 1.92 MilliJy 3 2 10-APR-2009 00:43:24 IMAGR 813 Residual map points loaded 3 4 10-APR-2009 00:43:24 IMAGR Field 7 min algorithm flux= 1.966 MilliJy iter= 1814 3 3 10-APR-2009 00:43:24 IMAGR Field 7 Clean flux density= 226.820 MilliJy 1814 comps 3 3 10-APR-2009 00:43:24 IMAGR Total Cleaned flux density = 10.489 Jy 12182 comps 3 2 10-APR-2009 00:43:24 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:43:24 IMAGR I Polarization model processed 3 4 10-APR-2009 00:43:27 IMAGR Field 6 min = -4.2 MilliJy,max = 4.3 MilliJy 3 2 10-APR-2009 00:43:30 IMAGR BGC Clean: using 103 cell beam + residuals > 1.87 MilliJy 3 2 10-APR-2009 00:43:30 IMAGR 1268 Residual map points loaded 3 4 10-APR-2009 00:43:30 IMAGR Field 6 min algorithm flux= 1.914 MilliJy iter= 2215 3 3 10-APR-2009 00:43:30 IMAGR Field 6 Clean flux density= 4.955 MilliJy 2215 comps 3 3 10-APR-2009 00:43:30 IMAGR Total Cleaned flux density = 10.492 Jy 12436 comps 3 2 10-APR-2009 00:43:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:43:30 IMAGR I Polarization model processed 3 4 10-APR-2009 00:43:34 IMAGR Field 5 min = -3.6 MilliJy,max = 3.5 MilliJy 3 2 10-APR-2009 00:43:36 IMAGR BGC Clean: using 103 cell beam + residuals > 1.84 MilliJy 3 2 10-APR-2009 00:43:36 IMAGR 467 Residual map points loaded 3 4 10-APR-2009 00:43:36 IMAGR Field 5 min algorithm flux= 1.868 MilliJy iter= 1930 3 3 10-APR-2009 00:43:36 IMAGR Field 5 Clean flux density= 122.758 MilliJy 1930 comps 3 3 10-APR-2009 00:43:36 IMAGR Total Cleaned flux density = 10.491 Jy 12603 comps 3 2 10-APR-2009 00:43:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:43:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:43:40 IMAGR Field 4 min = -3.2 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:43:43 IMAGR BGC Clean: using 103 cell beam + residuals > 1.81 MilliJy 3 2 10-APR-2009 00:43:43 IMAGR 391 Residual map points loaded 3 4 10-APR-2009 00:43:43 IMAGR Field 4 min algorithm flux= -1.837 MilliJy iter= 1793 3 3 10-APR-2009 00:43:43 IMAGR Field 4 Clean flux density= 66.072 MilliJy 1793 comps 3 3 10-APR-2009 00:43:43 IMAGR Total Cleaned flux density = 10.493 Jy 12754 comps 3 2 10-APR-2009 00:43:43 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:43:43 IMAGR I Polarization model processed 3 4 10-APR-2009 00:43:43 IMAGR Field 8 min = -2.4 MilliJy,max = 2.1 MilliJy 3 3 10-APR-2009 00:43:43 IMAGR TRY ANOTHER FIELD: this is 1.746E-03 < Second best 1.973E-03 3 4 10-APR-2009 00:43:46 IMAGR Field 1 min = -2.8 MilliJy,max = 2.7 MilliJy 3 3 10-APR-2009 00:43:46 IMAGR TRY ANOTHER FIELD: this is 1.870E-03 < Second best 1.967E-03 3 4 10-APR-2009 00:43:49 IMAGR Field 3 min = -4.3 MilliJy,max = 5.1 MilliJy 3 2 10-APR-2009 00:43:52 IMAGR BGC Clean: using 103 cell beam + residuals > 1.75 MilliJy 3 2 10-APR-2009 00:43:52 IMAGR 1091 Residual map points loaded 3 4 10-APR-2009 00:43:55 IMAGR Field 3 min algorithm flux= -1.784 MilliJy iter= 2479 3 3 10-APR-2009 00:43:55 IMAGR Field 3 Clean flux density= 217.624 MilliJy 2479 comps 3 3 10-APR-2009 00:43:55 IMAGR Total Cleaned flux density = 10.498 Jy 13013 comps 3 2 10-APR-2009 00:43:56 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:43:56 IMAGR I Polarization model processed 3 4 10-APR-2009 00:43:59 IMAGR Field 2 min = -3.6 MilliJy,max = 3.4 MilliJy 3 2 10-APR-2009 00:44:02 IMAGR BGC Clean: using 103 cell beam + residuals > 1.72 MilliJy 3 2 10-APR-2009 00:44:02 IMAGR 757 Residual map points loaded 3 4 10-APR-2009 00:44:02 IMAGR Field 2 min algorithm flux= 1.749 MilliJy iter= 1942 3 3 10-APR-2009 00:44:02 IMAGR Field 2 Clean flux density= 70.278 MilliJy 1942 comps 3 3 10-APR-2009 00:44:02 IMAGR Total Cleaned flux density = 10.498 Jy 13249 comps 3 2 10-APR-2009 00:44:02 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:02 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:05 IMAGR Field 7 min = -3.3 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:44:08 IMAGR BGC Clean: using 103 cell beam + residuals > 1.68 MilliJy 3 2 10-APR-2009 00:44:08 IMAGR 810 Residual map points loaded 3 4 10-APR-2009 00:44:08 IMAGR Field 7 min algorithm flux= -1.710 MilliJy iter= 2046 3 3 10-APR-2009 00:44:08 IMAGR Field 7 Clean flux density= 228.284 MilliJy 2046 comps 3 3 10-APR-2009 00:44:08 IMAGR Total Cleaned flux density = 10.499 Jy 13481 comps 3 2 10-APR-2009 00:44:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:09 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:12 IMAGR Field 1 min = -2.7 MilliJy,max = 2.6 MilliJy 3 2 10-APR-2009 00:44:15 IMAGR BGC Clean: using 103 cell beam + residuals > 1.68 MilliJy 3 2 10-APR-2009 00:44:17 IMAGR 166 Residual map points loaded 3 4 10-APR-2009 00:44:17 IMAGR Field 1 min algorithm flux= 1.688 MilliJy iter= 1154 3 3 10-APR-2009 00:44:17 IMAGR Field 1 Clean flux density= 9.788 Jy 1154 comps 3 3 10-APR-2009 00:44:17 IMAGR Total Cleaned flux density = 10.498 Jy 13559 comps 3 2 10-APR-2009 00:44:17 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:17 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:20 IMAGR Field 6 min = -3.8 MilliJy,max = 4.1 MilliJy 3 2 10-APR-2009 00:44:23 IMAGR BGC Clean: using 103 cell beam + residuals > 1.63 MilliJy 3 2 10-APR-2009 00:44:23 IMAGR 1813 Residual map points loaded 3 4 10-APR-2009 00:44:23 IMAGR Field 6 min algorithm flux= -1.675 MilliJy iter= 2546 3 3 10-APR-2009 00:44:23 IMAGR Field 6 Clean flux density= 4.233 MilliJy 2546 comps 3 3 10-APR-2009 00:44:23 IMAGR Total Cleaned flux density = 10.497 Jy 13890 comps 3 2 10-APR-2009 00:44:23 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:23 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:27 IMAGR Field 5 min = -3.3 MilliJy,max = 2.8 MilliJy 3 2 10-APR-2009 00:44:30 IMAGR BGC Clean: using 103 cell beam + residuals > 1.61 MilliJy 3 2 10-APR-2009 00:44:30 IMAGR 654 Residual map points loaded 3 4 10-APR-2009 00:44:30 IMAGR Field 5 min algorithm flux= -1.634 MilliJy iter= 2136 3 3 10-APR-2009 00:44:30 IMAGR Field 5 Clean flux density= 128.741 MilliJy 2136 comps 3 3 10-APR-2009 00:44:30 IMAGR Total Cleaned flux density = 10.503 Jy 14096 comps 3 2 10-APR-2009 00:44:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:30 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:34 IMAGR Field 4 min = -2.9 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:44:36 IMAGR BGC Clean: using 103 cell beam + residuals > 1.58 MilliJy 3 2 10-APR-2009 00:44:36 IMAGR 709 Residual map points loaded 3 4 10-APR-2009 00:44:36 IMAGR Field 4 min algorithm flux= -1.610 MilliJy iter= 2018 3 3 10-APR-2009 00:44:36 IMAGR Field 4 Clean flux density= 65.489 MilliJy 2018 comps 3 3 10-APR-2009 00:44:36 IMAGR Total Cleaned flux density = 10.503 Jy 14321 comps 3 2 10-APR-2009 00:44:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:37 IMAGR Field 8 min = -2.1 MilliJy,max = 1.9 MilliJy 3 3 10-APR-2009 00:44:37 IMAGR TRY ANOTHER FIELD: this is 1.494E-03 < Second best 1.710E-03 3 4 10-APR-2009 00:44:40 IMAGR Field 3 min = -4.2 MilliJy,max = 4.8 MilliJy 3 2 10-APR-2009 00:44:42 IMAGR BGC Clean: using 103 cell beam + residuals > 1.55 MilliJy 3 2 10-APR-2009 00:44:42 IMAGR 1766 Residual map points loaded 3 4 10-APR-2009 00:44:42 IMAGR Field 3 min algorithm flux= 1.590 MilliJy iter= 2825 3 3 10-APR-2009 00:44:42 IMAGR Field 3 Clean flux density= 217.945 MilliJy 2825 comps 3 3 10-APR-2009 00:44:42 IMAGR Total Cleaned flux density = 10.503 Jy 14667 comps 3 2 10-APR-2009 00:44:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:42 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:46 IMAGR Field 2 min = -3.5 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:44:48 IMAGR BGC Clean: using 103 cell beam + residuals > 1.53 MilliJy 3 2 10-APR-2009 00:44:49 IMAGR 655 Residual map points loaded 3 4 10-APR-2009 00:44:49 IMAGR Field 2 min algorithm flux= -1.550 MilliJy iter= 2147 3 3 10-APR-2009 00:44:49 IMAGR Field 2 Clean flux density= 76.509 MilliJy 2147 comps 3 3 10-APR-2009 00:44:49 IMAGR Total Cleaned flux density = 10.509 Jy 14872 comps 3 2 10-APR-2009 00:44:49 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:49 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:52 IMAGR Field 7 min = -3.1 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:44:54 IMAGR BGC Clean: using 103 cell beam + residuals > 1.50 MilliJy 3 2 10-APR-2009 00:44:55 IMAGR 768 Residual map points loaded 3 4 10-APR-2009 00:44:55 IMAGR Field 7 min algorithm flux= 1.527 MilliJy iter= 2279 3 3 10-APR-2009 00:44:55 IMAGR Field 7 Clean flux density= 226.274 MilliJy 2279 comps 3 3 10-APR-2009 00:44:55 IMAGR Total Cleaned flux density = 10.507 Jy 15105 comps 3 2 10-APR-2009 00:44:55 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:44:55 IMAGR I Polarization model processed 3 4 10-APR-2009 00:44:58 IMAGR Field 1 min = -2.3 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:45:01 IMAGR BGC Clean: using 103 cell beam + residuals > 1.49 MilliJy 3 2 10-APR-2009 00:45:01 IMAGR 91 Residual map points loaded 3 4 10-APR-2009 00:45:01 IMAGR Field 1 min algorithm flux= 1.498 MilliJy iter= 1200 3 3 10-APR-2009 00:45:01 IMAGR Field 1 Clean flux density= 9.788 Jy 1200 comps 3 3 10-APR-2009 00:45:01 IMAGR Total Cleaned flux density = 10.507 Jy 15151 comps 3 2 10-APR-2009 00:45:01 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:01 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:04 IMAGR Field 6 min = -3.5 MilliJy,max = 3.7 MilliJy 3 2 10-APR-2009 00:45:07 IMAGR BGC Clean: using 103 cell beam + residuals > 1.45 MilliJy 3 2 10-APR-2009 00:45:07 IMAGR 1449 Residual map points loaded 3 4 10-APR-2009 00:45:07 IMAGR Field 6 min algorithm flux= 1.484 MilliJy iter= 2844 3 3 10-APR-2009 00:45:07 IMAGR Field 6 Clean flux density= 6.172 MilliJy 2844 comps 3 3 10-APR-2009 00:45:07 IMAGR Total Cleaned flux density = 10.509 Jy 15449 comps 3 2 10-APR-2009 00:45:07 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:07 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:10 IMAGR Field 5 min = -3.1 MilliJy,max = 2.7 MilliJy 3 2 10-APR-2009 00:45:13 IMAGR BGC Clean: using 103 cell beam + residuals > 1.43 MilliJy 3 2 10-APR-2009 00:45:13 IMAGR 719 Residual map points loaded 3 4 10-APR-2009 00:45:13 IMAGR Field 5 min algorithm flux= 1.455 MilliJy iter= 2359 3 3 10-APR-2009 00:45:13 IMAGR Field 5 Clean flux density= 125.810 MilliJy 2359 comps 3 3 10-APR-2009 00:45:13 IMAGR Total Cleaned flux density = 10.506 Jy 15672 comps 3 2 10-APR-2009 00:45:13 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:13 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:16 IMAGR Field 4 min = -2.5 MilliJy,max = 2.6 MilliJy 3 2 10-APR-2009 00:45:19 IMAGR BGC Clean: using 103 cell beam + residuals > 1.41 MilliJy 3 2 10-APR-2009 00:45:20 IMAGR 519 Residual map points loaded 3 4 10-APR-2009 00:45:20 IMAGR Field 4 min algorithm flux= 1.428 MilliJy iter= 2198 3 3 10-APR-2009 00:45:20 IMAGR Field 4 Clean flux density= 66.348 MilliJy 2198 comps 3 3 10-APR-2009 00:45:20 IMAGR Total Cleaned flux density = 10.507 Jy 15852 comps 3 2 10-APR-2009 00:45:20 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:20 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:23 IMAGR Field 3 min = -3.8 MilliJy,max = 4.4 MilliJy 3 2 10-APR-2009 00:45:25 IMAGR BGC Clean: using 103 cell beam + residuals > 1.37 MilliJy 3 2 10-APR-2009 00:45:26 IMAGR 1342 Residual map points loaded 3 4 10-APR-2009 00:45:26 IMAGR Field 3 min algorithm flux= 1.396 MilliJy iter= 3104 3 3 10-APR-2009 00:45:26 IMAGR Field 3 Clean flux density= 216.645 MilliJy 3104 comps 3 3 10-APR-2009 00:45:26 IMAGR Total Cleaned flux density = 10.506 Jy 16131 comps 3 2 10-APR-2009 00:45:28 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:28 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:28 IMAGR Field 8 min = -1.7 MilliJy,max = 1.6 MilliJy 3 3 10-APR-2009 00:45:28 IMAGR TRY ANOTHER FIELD: this is 1.173E-03 < Second best 1.486E-03 3 4 10-APR-2009 00:45:31 IMAGR Field 2 min = -3.2 MilliJy,max = 2.7 MilliJy 3 2 10-APR-2009 00:45:34 IMAGR BGC Clean: using 103 cell beam + residuals > 1.35 MilliJy 3 2 10-APR-2009 00:45:34 IMAGR 895 Residual map points loaded 3 4 10-APR-2009 00:45:34 IMAGR Field 2 min algorithm flux= -1.373 MilliJy iter= 2410 3 3 10-APR-2009 00:45:34 IMAGR Field 2 Clean flux density= 77.812 MilliJy 2410 comps 3 3 10-APR-2009 00:45:34 IMAGR Total Cleaned flux density = 10.507 Jy 16394 comps 3 2 10-APR-2009 00:45:34 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:34 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:39 IMAGR Field 7 min = -2.8 MilliJy,max = 2.6 MilliJy 3 2 10-APR-2009 00:45:42 IMAGR BGC Clean: using 103 cell beam + residuals > 1.33 MilliJy 3 2 10-APR-2009 00:45:42 IMAGR 957 Residual map points loaded 3 4 10-APR-2009 00:45:42 IMAGR Field 7 min algorithm flux= 1.351 MilliJy iter= 2558 3 3 10-APR-2009 00:45:42 IMAGR Field 7 Clean flux density= 229.431 MilliJy 2558 comps 3 3 10-APR-2009 00:45:42 IMAGR Total Cleaned flux density = 10.510 Jy 16673 comps 3 2 10-APR-2009 00:45:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:42 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:45 IMAGR Field 1 min = -2.0 MilliJy,max = 2.1 MilliJy 3 2 10-APR-2009 00:45:48 IMAGR BGC Clean: using 103 cell beam + residuals > 1.32 MilliJy 3 2 10-APR-2009 00:45:48 IMAGR 124 Residual map points loaded 3 4 10-APR-2009 00:45:48 IMAGR Field 1 min algorithm flux= -1.325 MilliJy iter= 1255 3 3 10-APR-2009 00:45:48 IMAGR Field 1 Clean flux density= 9.786 Jy 1255 comps 3 3 10-APR-2009 00:45:48 IMAGR Total Cleaned flux density = 10.509 Jy 16728 comps 3 2 10-APR-2009 00:45:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:48 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:51 IMAGR Field 6 min = -3.3 MilliJy,max = 3.5 MilliJy 3 2 10-APR-2009 00:45:54 IMAGR BGC Clean: using 103 cell beam + residuals > 1.29 MilliJy 3 2 10-APR-2009 00:45:54 IMAGR 2001 Residual map points loaded 3 4 10-APR-2009 00:45:54 IMAGR Field 6 min algorithm flux= 1.321 MilliJy iter= 3198 3 3 10-APR-2009 00:45:54 IMAGR Field 6 Clean flux density= 10.267 MilliJy 3198 comps 3 3 10-APR-2009 00:45:54 IMAGR Total Cleaned flux density = 10.513 Jy 17082 comps 3 2 10-APR-2009 00:45:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:45:54 IMAGR I Polarization model processed 3 4 10-APR-2009 00:45:57 IMAGR Field 5 min = -2.7 MilliJy,max = 2.4 MilliJy 3 2 10-APR-2009 00:46:01 IMAGR BGC Clean: using 103 cell beam + residuals > 1.27 MilliJy 3 2 10-APR-2009 00:46:01 IMAGR 865 Residual map points loaded 3 4 10-APR-2009 00:46:01 IMAGR Field 5 min algorithm flux= 1.292 MilliJy iter= 2601 3 3 10-APR-2009 00:46:01 IMAGR Field 5 Clean flux density= 125.503 MilliJy 2601 comps 3 3 10-APR-2009 00:46:01 IMAGR Total Cleaned flux density = 10.512 Jy 17324 comps 3 2 10-APR-2009 00:46:01 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:01 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:05 IMAGR Field 4 min = -2.3 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:46:08 IMAGR BGC Clean: using 103 cell beam + residuals > 1.26 MilliJy 3 2 10-APR-2009 00:46:08 IMAGR 838 Residual map points loaded 3 4 10-APR-2009 00:46:08 IMAGR Field 4 min algorithm flux= -1.276 MilliJy iter= 2446 3 3 10-APR-2009 00:46:08 IMAGR Field 4 Clean flux density= 64.803 MilliJy 2446 comps 3 3 10-APR-2009 00:46:08 IMAGR Total Cleaned flux density = 10.511 Jy 17572 comps 3 2 10-APR-2009 00:46:08 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:08 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:11 IMAGR Field 3 min = -3.8 MilliJy,max = 4.2 MilliJy 3 2 10-APR-2009 00:46:14 IMAGR BGC Clean: using 103 cell beam + residuals > 1.23 MilliJy 3 2 10-APR-2009 00:46:14 IMAGR 2027 Residual map points loaded 3 4 10-APR-2009 00:46:14 IMAGR Field 3 min algorithm flux= 1.260 MilliJy iter= 3484 3 3 10-APR-2009 00:46:14 IMAGR Field 3 Clean flux density= 221.287 MilliJy 3484 comps 3 3 10-APR-2009 00:46:14 IMAGR Total Cleaned flux density = 10.515 Jy 17952 comps 3 2 10-APR-2009 00:46:14 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:14 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:18 IMAGR Field 2 min = -2.9 MilliJy,max = 2.4 MilliJy 3 2 10-APR-2009 00:46:21 IMAGR BGC Clean: using 103 cell beam + residuals > 1.21 MilliJy 3 2 10-APR-2009 00:46:21 IMAGR 774 Residual map points loaded 3 4 10-APR-2009 00:46:21 IMAGR Field 2 min algorithm flux= 1.232 MilliJy iter= 2632 3 3 10-APR-2009 00:46:21 IMAGR Field 2 Clean flux density= 81.183 MilliJy 2632 comps 3 3 10-APR-2009 00:46:21 IMAGR Total Cleaned flux density = 10.519 Jy 18174 comps 3 2 10-APR-2009 00:46:21 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:21 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:24 IMAGR Field 7 min = -2.6 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:46:27 IMAGR BGC Clean: using 103 cell beam + residuals > 1.20 MilliJy 3 2 10-APR-2009 00:46:27 IMAGR 1045 Residual map points loaded 3 4 10-APR-2009 00:46:27 IMAGR Field 7 min algorithm flux= -1.217 MilliJy iter= 2830 3 3 10-APR-2009 00:46:27 IMAGR Field 7 Clean flux density= 227.217 MilliJy 2830 comps 3 3 10-APR-2009 00:46:27 IMAGR Total Cleaned flux density = 10.517 Jy 18446 comps 3 2 10-APR-2009 00:46:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:27 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:31 IMAGR Field 1 min = -1.8 MilliJy,max = 1.8 MilliJy 3 2 10-APR-2009 00:46:36 IMAGR BGC Clean: using 103 cell beam + residuals > 1.19 MilliJy 3 2 10-APR-2009 00:46:36 IMAGR 118 Residual map points loaded 3 4 10-APR-2009 00:46:36 IMAGR Field 1 min algorithm flux= -1.197 MilliJy iter= 1307 3 3 10-APR-2009 00:46:36 IMAGR Field 1 Clean flux density= 9.785 Jy 1307 comps 3 3 10-APR-2009 00:46:36 IMAGR Total Cleaned flux density = 10.515 Jy 18498 comps 3 2 10-APR-2009 00:46:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:39 IMAGR Field 6 min = -3.0 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:46:41 IMAGR BGC Clean: using 103 cell beam + residuals > 1.17 MilliJy 3 2 10-APR-2009 00:46:42 IMAGR 1602 Residual map points loaded 3 4 10-APR-2009 00:46:42 IMAGR Field 6 min algorithm flux= -1.187 MilliJy iter= 3512 3 3 10-APR-2009 00:46:42 IMAGR Field 6 Clean flux density= 11.487 MilliJy 3512 comps 3 3 10-APR-2009 00:46:42 IMAGR Total Cleaned flux density = 10.516 Jy 18812 comps 3 2 10-APR-2009 00:46:42 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:42 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:45 IMAGR Field 5 min = -2.5 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:46:48 IMAGR BGC Clean: using 103 cell beam + residuals > 1.15 MilliJy 3 2 10-APR-2009 00:46:48 IMAGR 800 Residual map points loaded 3 4 10-APR-2009 00:46:49 IMAGR Field 5 min algorithm flux= 1.166 MilliJy iter= 2820 3 3 10-APR-2009 00:46:49 IMAGR Field 5 Clean flux density= 125.048 MilliJy 2820 comps 3 3 10-APR-2009 00:46:49 IMAGR Total Cleaned flux density = 10.516 Jy 19031 comps 3 2 10-APR-2009 00:46:49 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:49 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:52 IMAGR Field 4 min = -2.1 MilliJy,max = 2.4 MilliJy 3 2 10-APR-2009 00:46:55 IMAGR BGC Clean: using 103 cell beam + residuals > 1.14 MilliJy 3 2 10-APR-2009 00:46:56 IMAGR 740 Residual map points loaded 3 4 10-APR-2009 00:46:56 IMAGR Field 4 min algorithm flux= 1.150 MilliJy iter= 2661 3 3 10-APR-2009 00:46:56 IMAGR Field 4 Clean flux density= 65.607 MilliJy 2661 comps 3 3 10-APR-2009 00:46:56 IMAGR Total Cleaned flux density = 10.517 Jy 19246 comps 3 2 10-APR-2009 00:46:56 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:46:56 IMAGR I Polarization model processed 3 4 10-APR-2009 00:46:59 IMAGR Field 3 min = -3.5 MilliJy,max = 3.9 MilliJy 3 2 10-APR-2009 00:47:02 IMAGR BGC Clean: using 103 cell beam + residuals > 1.11 MilliJy 3 2 10-APR-2009 00:47:02 IMAGR 2059 Residual map points loaded 3 4 10-APR-2009 00:47:03 IMAGR Field 3 min algorithm flux= -1.132 MilliJy iter= 3854 3 3 10-APR-2009 00:47:03 IMAGR Field 3 Clean flux density= 222.338 MilliJy 3854 comps 3 3 10-APR-2009 00:47:03 IMAGR Total Cleaned flux density = 10.518 Jy 19616 comps 3 2 10-APR-2009 00:47:03 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:03 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:06 IMAGR Field 2 min = -2.8 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:47:09 IMAGR BGC Clean: using 103 cell beam + residuals > 1.09 MilliJy 3 2 10-APR-2009 00:47:09 IMAGR 1137 Residual map points loaded 3 4 10-APR-2009 00:47:09 IMAGR Field 2 min algorithm flux= 1.113 MilliJy iter= 2923 3 3 10-APR-2009 00:47:09 IMAGR Field 2 Clean flux density= 81.713 MilliJy 2923 comps 3 3 10-APR-2009 00:47:09 IMAGR Total Cleaned flux density = 10.518 Jy 19907 comps 3 2 10-APR-2009 00:47:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:09 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:10 IMAGR Field 8 min = -1.3 MilliJy,max = 1.1 MilliJy 3 3 10-APR-2009 00:47:10 IMAGR TRY ANOTHER FIELD: this is 9.832E-04 < Second best 1.166E-03 3 4 10-APR-2009 00:47:13 IMAGR Field 7 min = -2.4 MilliJy,max = 2.4 MilliJy 3 2 10-APR-2009 00:47:16 IMAGR BGC Clean: using 103 cell beam + residuals > 1.08 MilliJy 3 2 10-APR-2009 00:47:16 IMAGR 1073 Residual map points loaded 3 4 10-APR-2009 00:47:16 IMAGR Field 7 min algorithm flux= 1.097 MilliJy iter= 3138 3 3 10-APR-2009 00:47:16 IMAGR Field 7 Clean flux density= 226.354 MilliJy 3138 comps 3 3 10-APR-2009 00:47:16 IMAGR Total Cleaned flux density = 10.517 Jy 20215 comps 3 2 10-APR-2009 00:47:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:16 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:20 IMAGR Field 1 min = -1.8 MilliJy,max = 1.7 MilliJy 3 2 10-APR-2009 00:47:22 IMAGR BGC Clean: using 103 cell beam + residuals > 1.07 MilliJy 3 2 10-APR-2009 00:47:23 IMAGR 122 Residual map points loaded 3 4 10-APR-2009 00:47:23 IMAGR Field 1 min algorithm flux= -1.079 MilliJy iter= 1356 3 3 10-APR-2009 00:47:23 IMAGR Field 1 Clean flux density= 9.784 Jy 1356 comps 3 3 10-APR-2009 00:47:23 IMAGR Total Cleaned flux density = 10.517 Jy 20264 comps 3 2 10-APR-2009 00:47:23 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:23 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:26 IMAGR Field 6 min = -2.8 MilliJy,max = 3.2 MilliJy 3 2 10-APR-2009 00:47:29 IMAGR BGC Clean: using 103 cell beam + residuals > 1.06 MilliJy 3 2 10-APR-2009 00:47:29 IMAGR 2165 Residual map points loaded 3 4 10-APR-2009 00:47:29 IMAGR Field 6 min algorithm flux= 1.078 MilliJy iter= 3889 3 3 10-APR-2009 00:47:29 IMAGR Field 6 Clean flux density= 12.793 MilliJy 3889 comps 3 3 10-APR-2009 00:47:29 IMAGR Total Cleaned flux density = 10.518 Jy 20641 comps 3 2 10-APR-2009 00:47:29 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:29 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:32 IMAGR Field 5 min = -2.4 MilliJy,max = 2.2 MilliJy 3 2 10-APR-2009 00:47:35 IMAGR BGC Clean: using 103 cell beam + residuals > 1.04 MilliJy 3 2 10-APR-2009 00:47:35 IMAGR 1075 Residual map points loaded 3 4 10-APR-2009 00:47:35 IMAGR Field 5 min algorithm flux= -1.061 MilliJy iter= 3109 3 3 10-APR-2009 00:47:35 IMAGR Field 5 Clean flux density= 128.034 MilliJy 3109 comps 3 3 10-APR-2009 00:47:35 IMAGR Total Cleaned flux density = 10.521 Jy 20930 comps 3 2 10-APR-2009 00:47:35 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:35 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:38 IMAGR Field 4 min = -2.0 MilliJy,max = 2.3 MilliJy 3 2 10-APR-2009 00:47:41 IMAGR BGC Clean: using 103 cell beam + residuals > 1.03 MilliJy 3 2 10-APR-2009 00:47:41 IMAGR 967 Residual map points loaded 3 4 10-APR-2009 00:47:41 IMAGR Field 4 min algorithm flux= -1.047 MilliJy iter= 2924 3 3 10-APR-2009 00:47:41 IMAGR Field 4 Clean flux density= 66.347 MilliJy 2924 comps 3 3 10-APR-2009 00:47:41 IMAGR Total Cleaned flux density = 10.522 Jy 21193 comps 3 2 10-APR-2009 00:47:41 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:41 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:44 IMAGR Field 3 min = -3.4 MilliJy,max = 3.5 MilliJy 3 2 10-APR-2009 00:47:47 IMAGR BGC Clean: using 103 cell beam + residuals > 1.01 MilliJy 3 2 10-APR-2009 00:47:47 IMAGR 2131 Residual map points loaded 3 4 10-APR-2009 00:47:47 IMAGR Field 3 min algorithm flux= 1.033 MilliJy iter= 4245 3 3 10-APR-2009 00:47:47 IMAGR Field 3 Clean flux density= 221.169 MilliJy 4245 comps 3 3 10-APR-2009 00:47:47 IMAGR Total Cleaned flux density = 10.521 Jy 21584 comps 3 2 10-APR-2009 00:47:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:51 IMAGR Field 2 min = -2.6 MilliJy,max = 2.1 MilliJy 3 2 10-APR-2009 00:47:54 IMAGR BGC Clean: using 103 cell beam + residuals > 998.95 MicroJy 3 2 10-APR-2009 00:47:54 IMAGR 863 Residual map points loaded 3 4 10-APR-2009 00:47:54 IMAGR Field 2 min algorithm flux= 1.012 MilliJy iter= 3159 3 3 10-APR-2009 00:47:54 IMAGR Field 2 Clean flux density= 82.333 MilliJy 3159 comps 3 3 10-APR-2009 00:47:54 IMAGR Total Cleaned flux density = 10.521 Jy 21820 comps 3 2 10-APR-2009 00:47:54 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:47:54 IMAGR I Polarization model processed 3 4 10-APR-2009 00:47:57 IMAGR Field 7 min = -2.4 MilliJy,max = 2.2 MilliJy 3 2 10-APR-2009 00:48:00 IMAGR BGC Clean: using 103 cell beam + residuals > 986.68 MicroJy 3 2 10-APR-2009 00:48:00 IMAGR 1205 Residual map points loaded 3 4 10-APR-2009 00:48:00 IMAGR Field 7 min algorithm flux= -1.002 MilliJy iter= 3439 3 3 10-APR-2009 00:48:00 IMAGR Field 7 Clean flux density= 225.406 MilliJy 3439 comps 3 3 10-APR-2009 00:48:00 IMAGR Total Cleaned flux density = 10.520 Jy 22121 comps 3 2 10-APR-2009 00:48:02 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:48:02 IMAGR I Polarization model processed 3 4 10-APR-2009 00:48:05 IMAGR Field 1 min = -1.5 MilliJy,max = 1.5 MilliJy 3 2 10-APR-2009 00:48:10 IMAGR BGC Clean: using 103 cell beam + residuals > 984.09 MicroJy 3 2 10-APR-2009 00:48:11 IMAGR 143 Residual map points loaded 3 4 10-APR-2009 00:48:11 IMAGR Field 1 min algorithm flux= -987.861 MicroJy iter= 1418 3 3 10-APR-2009 00:48:11 IMAGR Field 1 Clean flux density= 9.784 Jy 1418 comps 3 3 10-APR-2009 00:48:11 IMAGR Total Cleaned flux density = 10.520 Jy 22183 comps 3 2 10-APR-2009 00:48:11 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:48:11 IMAGR I Polarization model processed 3 4 10-APR-2009 00:48:14 IMAGR Field 6 min = -2.6 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:48:16 IMAGR BGC Clean: using 103 cell beam + residuals > 965.29 MicroJy 3 2 10-APR-2009 00:48:16 IMAGR 2073 Residual map points loaded 3 4 10-APR-2009 00:48:16 IMAGR Field 6 min algorithm flux= 983.391 MicroJy iter= 4260 3 3 10-APR-2009 00:48:16 IMAGR Field 6 Clean flux density= 12.270 MilliJy 4260 comps 3 3 10-APR-2009 00:48:16 IMAGR Total Cleaned flux density = 10.520 Jy 22554 comps 3 2 10-APR-2009 00:48:16 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:48:16 IMAGR I Polarization model processed 3 4 10-APR-2009 00:48:20 IMAGR Field 5 min = -2.3 MilliJy,max = 2.0 MilliJy 3 2 10-APR-2009 00:48:23 IMAGR BGC Clean: using 103 cell beam + residuals > 953.61 MicroJy 3 2 10-APR-2009 00:48:23 IMAGR 926 Residual map points loaded 3 4 10-APR-2009 00:48:23 IMAGR Field 5 min algorithm flux= -965.595 MicroJy iter= 3357 3 3 10-APR-2009 00:48:23 IMAGR Field 5 Clean flux density= 126.088 MilliJy 3357 comps 3 3 10-APR-2009 00:48:23 IMAGR Total Cleaned flux density = 10.518 Jy 22802 comps 3 2 10-APR-2009 00:48:23 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:48:23 IMAGR I Polarization model processed 3 4 10-APR-2009 00:48:26 IMAGR Field 4 min = -1.9 MilliJy,max = 2.2 MilliJy 3 2 10-APR-2009 00:48:29 IMAGR BGC Clean: using 103 cell beam + residuals > 942.96 MicroJy 3 2 10-APR-2009 00:48:30 IMAGR 1003 Residual map points loaded 3 4 10-APR-2009 00:48:30 IMAGR Field 4 min algorithm flux= -955.358 MicroJy iter= 3184 3 3 10-APR-2009 00:48:30 IMAGR Field 4 Clean flux density= 67.107 MilliJy 3184 comps 3 3 10-APR-2009 00:48:30 IMAGR Total Cleaned flux density = 10.519 Jy 23062 comps 3 2 10-APR-2009 00:48:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:48:30 IMAGR I Polarization model processed 3 4 10-APR-2009 00:48:33 IMAGR Field 3 min = -3.3 MilliJy,max = 3.3 MilliJy 3 2 10-APR-2009 00:48:36 IMAGR BGC Clean: using 103 cell beam + residuals > 923.30 MicroJy 3 2 10-APR-2009 00:48:36 IMAGR 2203 Residual map points loaded 3 4 10-APR-2009 00:48:36 IMAGR Field 3 min algorithm flux= -941.079 MicroJy iter= 4636 3 3 10-APR-2009 00:48:36 IMAGR Field 3 Clean flux density= 223.886 MilliJy 4636 comps 3 3 10-APR-2009 00:48:36 IMAGR Total Cleaned flux density = 10.521 Jy 23453 comps 3 2 10-APR-2009 00:48:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:48:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:48:37 IMAGR Field 8 min = -1.1 MilliJy,max = 989.4 MicroJy 3 3 10-APR-2009 00:48:37 IMAGR TRY ANOTHER FIELD: this is 8.292E-04 < Second best 9.696E-04 3 4 10-APR-2009 00:48:40 IMAGR Field 2 min = -2.4 MilliJy,max = 2.0 MilliJy 3 2 10-APR-2009 00:48:45 IMAGR BGC Clean: using 103 cell beam + residuals > 914.09 MicroJy 3 2 10-APR-2009 00:48:45 IMAGR 1410 Residual map points loaded 3 4 10-APR-2009 00:48:46 IMAGR Field 2 min algorithm flux= 929.017 MicroJy iter= 3510 3 3 10-APR-2009 00:48:46 IMAGR Field 2 Clean flux density= 83.757 MilliJy 3510 comps 3 3 10-APR-2009 00:48:46 IMAGR Total Cleaned flux density = 10.523 Jy 23804 comps 3 2 10-APR-2009 00:48:46 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:48:46 IMAGR I Polarization model processed 3 4 10-APR-2009 00:48:50 IMAGR Field 7 min = -2.2 MilliJy,max = 2.2 MilliJy 3 2 10-APR-2009 00:48:53 IMAGR BGC Clean: using 103 cell beam + residuals > 903.49 MicroJy 3 2 10-APR-2009 00:48:53 IMAGR 1544 Residual map points loaded 3 4 10-APR-2009 00:48:53 IMAGR Field 7 min algorithm flux= 918.382 MicroJy iter= 3788 3 3 10-APR-2009 00:48:53 IMAGR Field 7 Clean flux density= 224.452 MilliJy 3788 comps 3 3 10-APR-2009 00:48:53 IMAGR Total Cleaned flux density = 10.522 Jy 24153 comps 3 2 10-APR-2009 00:48:53 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:48:53 IMAGR I Polarization model processed 3 4 10-APR-2009 00:48:57 IMAGR Field 1 min = -1.4 MilliJy,max = 1.3 MilliJy 3 2 10-APR-2009 00:49:00 IMAGR BGC Clean: using 103 cell beam + residuals > 901.12 MicroJy 3 2 10-APR-2009 00:49:02 IMAGR 106 Residual map points loaded 3 4 10-APR-2009 00:49:02 IMAGR Field 1 min algorithm flux= 902.742 MicroJy iter= 1466 3 3 10-APR-2009 00:49:02 IMAGR Field 1 Clean flux density= 9.785 Jy 1466 comps 3 3 10-APR-2009 00:49:02 IMAGR Total Cleaned flux density = 10.522 Jy 24201 comps 3 2 10-APR-2009 00:49:04 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:49:04 IMAGR I Polarization model processed 3 4 10-APR-2009 00:49:07 IMAGR Field 6 min = -2.5 MilliJy,max = 3.0 MilliJy 3 2 10-APR-2009 00:49:10 IMAGR BGC Clean: using 103 cell beam + residuals > 887.68 MicroJy 3 2 10-APR-2009 00:49:10 IMAGR 2644 Residual map points loaded 3 4 10-APR-2009 00:49:10 IMAGR Field 6 min algorithm flux= 904.920 MicroJy iter= 4671 3 3 10-APR-2009 00:49:10 IMAGR Field 6 Clean flux density= 14.481 MilliJy 4671 comps 3 3 10-APR-2009 00:49:10 IMAGR Total Cleaned flux density = 10.525 Jy 24612 comps 3 2 10-APR-2009 00:49:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:49:10 IMAGR I Polarization model processed 3 4 10-APR-2009 00:49:13 IMAGR Field 5 min = -2.0 MilliJy,max = 2.1 MilliJy 3 2 10-APR-2009 00:49:20 IMAGR BGC Clean: using 103 cell beam + residuals > 879.55 MicroJy 3 2 10-APR-2009 00:49:21 IMAGR 1139 Residual map points loaded 3 4 10-APR-2009 00:49:21 IMAGR Field 5 min algorithm flux= -891.562 MicroJy iter= 3646 3 3 10-APR-2009 00:49:21 IMAGR Field 5 Clean flux density= 125.106 MilliJy 3646 comps 3 3 10-APR-2009 00:49:21 IMAGR Total Cleaned flux density = 10.524 Jy 24901 comps 3 2 10-APR-2009 00:49:21 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:49:21 IMAGR I Polarization model processed 3 4 10-APR-2009 00:49:24 IMAGR Field 4 min = -1.8 MilliJy,max = 2.1 MilliJy 3 2 10-APR-2009 00:49:30 IMAGR BGC Clean: using 103 cell beam + residuals > 871.06 MicroJy 3 2 10-APR-2009 00:49:30 IMAGR 897 Residual map points loaded 3 4 10-APR-2009 00:49:30 IMAGR Field 4 min algorithm flux= 880.641 MicroJy iter= 3417 3 3 10-APR-2009 00:49:30 IMAGR Field 4 Clean flux density= 67.344 MilliJy 3417 comps 3 3 10-APR-2009 00:49:30 IMAGR Total Cleaned flux density = 10.524 Jy 25134 comps 3 2 10-APR-2009 00:49:30 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:49:30 IMAGR I Polarization model processed 3 4 10-APR-2009 00:49:33 IMAGR Field 3 min = -3.2 MilliJy,max = 3.1 MilliJy 3 2 10-APR-2009 00:49:36 IMAGR BGC Clean: using 103 cell beam + residuals > 858.45 MicroJy 3 2 10-APR-2009 00:49:36 IMAGR 2568 Residual map points loaded 3 4 10-APR-2009 00:49:36 IMAGR Field 3 min algorithm flux= -874.587 MicroJy iter= 5064 3 3 10-APR-2009 00:49:36 IMAGR Field 3 Clean flux density= 221.847 MilliJy 5064 comps 3 3 10-APR-2009 00:49:36 IMAGR Total Cleaned flux density = 10.522 Jy 25562 comps 3 2 10-APR-2009 00:49:36 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:49:36 IMAGR I Polarization model processed 3 4 10-APR-2009 00:49:40 IMAGR Field 2 min = -2.3 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:49:46 IMAGR BGC Clean: using 103 cell beam + residuals > 848.09 MicroJy 3 2 10-APR-2009 00:49:47 IMAGR 1025 Residual map points loaded 3 4 10-APR-2009 00:49:48 IMAGR Field 2 min algorithm flux= -858.075 MicroJy iter= 3763 3 3 10-APR-2009 00:49:48 IMAGR Field 2 Clean flux density= 84.899 MilliJy 3763 comps 3 3 10-APR-2009 00:49:48 IMAGR Total Cleaned flux density = 10.523 Jy 25815 comps 3 2 10-APR-2009 00:49:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:49:48 IMAGR I Polarization model processed 3 4 10-APR-2009 00:49:51 IMAGR Field 7 min = -2.2 MilliJy,max = 2.1 MilliJy 3 2 10-APR-2009 00:49:56 IMAGR BGC Clean: using 103 cell beam + residuals > 837.56 MicroJy 3 2 10-APR-2009 00:49:57 IMAGR 1322 Residual map points loaded 3 4 10-APR-2009 00:49:58 IMAGR Field 7 min algorithm flux= -848.453 MicroJy iter= 4088 3 3 10-APR-2009 00:49:58 IMAGR Field 7 Clean flux density= 225.937 MilliJy 4088 comps 3 3 10-APR-2009 00:49:58 IMAGR Total Cleaned flux density = 10.524 Jy 26115 comps 3 2 10-APR-2009 00:49:58 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:49:58 IMAGR I Polarization model processed 3 4 10-APR-2009 00:50:01 IMAGR Field 6 min = -2.4 MilliJy,max = 2.8 MilliJy 3 2 10-APR-2009 00:50:04 IMAGR BGC Clean: using 103 cell beam + residuals > 823.48 MicroJy 3 2 10-APR-2009 00:50:05 IMAGR 1978 Residual map points loaded 3 4 10-APR-2009 00:50:05 IMAGR Field 6 min algorithm flux= 836.802 MicroJy iter= 5044 3 3 10-APR-2009 00:50:05 IMAGR Field 6 Clean flux density= 14.547 MilliJy 5044 comps 3 3 10-APR-2009 00:50:05 IMAGR Total Cleaned flux density = 10.525 Jy 26488 comps 3 2 10-APR-2009 00:50:05 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:50:05 IMAGR I Polarization model processed 3 4 10-APR-2009 00:50:09 IMAGR Field 1 min = -1.2 MilliJy,max = 1.2 MilliJy 3 2 10-APR-2009 00:50:12 IMAGR BGC Clean: using 103 cell beam + residuals > 821.55 MicroJy 3 2 10-APR-2009 00:50:13 IMAGR 327 Residual map points loaded 3 4 10-APR-2009 00:50:13 IMAGR Field 1 min algorithm flux= 825.392 MicroJy iter= 1563 3 3 10-APR-2009 00:50:13 IMAGR Field 1 Clean flux density= 9.786 Jy 1563 comps 3 3 10-APR-2009 00:50:13 IMAGR Total Cleaned flux density = 10.525 Jy 26585 comps 3 2 10-APR-2009 00:50:13 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:50:13 IMAGR I Polarization model processed 3 4 10-APR-2009 00:50:16 IMAGR Field 5 min = -2.1 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:50:24 IMAGR BGC Clean: using 103 cell beam + residuals > 813.28 MicroJy 3 2 10-APR-2009 00:50:25 IMAGR 1157 Residual map points loaded 3 4 10-APR-2009 00:50:26 IMAGR Field 5 min algorithm flux= 823.058 MicroJy iter= 3917 3 3 10-APR-2009 00:50:26 IMAGR Field 5 Clean flux density= 124.480 MilliJy 3917 comps 3 3 10-APR-2009 00:50:26 IMAGR Total Cleaned flux density = 10.525 Jy 26856 comps 3 2 10-APR-2009 00:50:28 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:50:28 IMAGR I Polarization model processed 3 4 10-APR-2009 00:50:31 IMAGR Field 4 min = -1.8 MilliJy,max = 2.0 MilliJy 3 2 10-APR-2009 00:50:34 IMAGR BGC Clean: using 103 cell beam + residuals > 807.13 MicroJy 3 2 10-APR-2009 00:50:37 IMAGR 1247 Residual map points loaded 3 4 10-APR-2009 00:50:38 IMAGR Field 4 min algorithm flux= 817.418 MicroJy iter= 3712 3 3 10-APR-2009 00:50:38 IMAGR Field 4 Clean flux density= 70.182 MilliJy 3712 comps 3 3 10-APR-2009 00:50:38 IMAGR Total Cleaned flux density = 10.527 Jy 27151 comps 3 2 10-APR-2009 00:50:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:50:38 IMAGR I Polarization model processed 3 4 10-APR-2009 00:50:42 IMAGR Field 3 min = -2.9 MilliJy,max = 2.9 MilliJy 3 2 10-APR-2009 00:50:44 IMAGR BGC Clean: using 103 cell beam + residuals > 791.87 MicroJy 3 2 10-APR-2009 00:50:46 IMAGR 2444 Residual map points loaded 3 4 10-APR-2009 00:50:47 IMAGR Field 3 min algorithm flux= 805.188 MicroJy iter= 5472 3 3 10-APR-2009 00:50:47 IMAGR Field 3 Clean flux density= 224.072 MilliJy 5472 comps 3 3 10-APR-2009 00:50:47 IMAGR Total Cleaned flux density = 10.530 Jy 27559 comps 3 2 10-APR-2009 00:50:47 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:50:47 IMAGR I Polarization model processed 3 4 10-APR-2009 00:50:49 IMAGR Field 8 min = -813.4 MicroJy,max = 881.1 MicroJy 3 3 10-APR-2009 00:50:49 IMAGR TRY ANOTHER FIELD: this is 6.441E-04 < Second best 8.224E-04 3 4 10-APR-2009 00:50:52 IMAGR Field 2 min = -2.2 MilliJy,max = 1.8 MilliJy 3 2 10-APR-2009 00:50:55 IMAGR BGC Clean: using 103 cell beam + residuals > 785.46 MicroJy 3 2 10-APR-2009 00:50:57 IMAGR 1631 Residual map points loaded 3 4 10-APR-2009 00:50:57 IMAGR Field 2 min algorithm flux= 797.363 MicroJy iter= 4129 3 3 10-APR-2009 00:50:57 IMAGR Field 2 Clean flux density= 83.757 MilliJy 4129 comps 3 3 10-APR-2009 00:50:57 IMAGR Total Cleaned flux density = 10.528 Jy 27925 comps 3 2 10-APR-2009 00:50:57 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:50:57 IMAGR I Polarization model processed 3 4 10-APR-2009 00:51:01 IMAGR Field 7 min = -2.0 MilliJy,max = 2.0 MilliJy 3 2 10-APR-2009 00:51:03 IMAGR BGC Clean: using 103 cell beam + residuals > 777.58 MicroJy 3 2 10-APR-2009 00:51:06 IMAGR 1750 Residual map points loaded 3 4 10-APR-2009 00:51:06 IMAGR Field 7 min algorithm flux= -790.168 MicroJy iter= 4464 3 3 10-APR-2009 00:51:06 IMAGR Field 7 Clean flux density= 224.801 MilliJy 4464 comps 3 3 10-APR-2009 00:51:06 IMAGR Total Cleaned flux density = 10.527 Jy 28301 comps 3 2 10-APR-2009 00:51:06 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:51:06 IMAGR I Polarization model processed 3 4 10-APR-2009 00:51:10 IMAGR Field 6 min = -2.3 MilliJy,max = 2.8 MilliJy 3 2 10-APR-2009 00:51:12 IMAGR BGC Clean: using 103 cell beam + residuals > 769.86 MicroJy 3 2 10-APR-2009 00:51:14 IMAGR 2978 Residual map points loaded 3 4 10-APR-2009 00:51:14 IMAGR Field 6 min algorithm flux= -783.890 MicroJy iter= 5490 3 3 10-APR-2009 00:51:14 IMAGR Field 6 Clean flux density= 16.792 MilliJy 5490 comps 3 3 10-APR-2009 00:51:14 IMAGR Total Cleaned flux density = 10.530 Jy 28747 comps 3 2 10-APR-2009 00:51:15 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:51:15 IMAGR I Polarization model processed 3 4 10-APR-2009 00:51:20 IMAGR Field 1 min = -1.2 MilliJy,max = 1.1 MilliJy 3 2 10-APR-2009 00:51:25 IMAGR BGC Clean: using 103 cell beam + residuals > 767.61 MicroJy 3 2 10-APR-2009 00:51:27 IMAGR 281 Residual map points loaded 3 4 10-APR-2009 00:51:27 IMAGR Field 1 min algorithm flux= 770.386 MicroJy iter= 1659 3 3 10-APR-2009 00:51:27 IMAGR Field 1 Clean flux density= 9.787 Jy 1659 comps 3 3 10-APR-2009 00:51:27 IMAGR Total Cleaned flux density = 10.531 Jy 28843 comps 3 2 10-APR-2009 00:51:27 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:51:27 IMAGR I Polarization model processed 3 4 10-APR-2009 00:51:31 IMAGR Field 5 min = -1.8 MilliJy,max = 1.8 MilliJy 3 2 10-APR-2009 00:51:36 IMAGR BGC Clean: using 103 cell beam + residuals > 762.05 MicroJy 3 2 10-APR-2009 00:51:38 IMAGR 1336 Residual map points loaded 3 4 10-APR-2009 00:51:38 IMAGR Field 5 min algorithm flux= -771.721 MicroJy iter= 4214 3 3 10-APR-2009 00:51:38 IMAGR Field 5 Clean flux density= 123.480 MilliJy 4214 comps 3 3 10-APR-2009 00:51:38 IMAGR Total Cleaned flux density = 10.530 Jy 29140 comps 3 2 10-APR-2009 00:51:38 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:51:38 IMAGR I Polarization model processed 3 4 10-APR-2009 00:51:42 IMAGR Field 4 min = -1.6 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:51:47 IMAGR BGC Clean: using 103 cell beam + residuals > 756.43 MicroJy 3 2 10-APR-2009 00:51:48 IMAGR 1302 Residual map points loaded 3 4 10-APR-2009 00:51:48 IMAGR Field 4 min algorithm flux= -764.910 MicroJy iter= 4004 3 3 10-APR-2009 00:51:48 IMAGR Field 4 Clean flux density= 69.686 MilliJy 4004 comps 3 3 10-APR-2009 00:51:48 IMAGR Total Cleaned flux density = 10.530 Jy 29432 comps 3 2 10-APR-2009 00:51:48 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:51:48 IMAGR I Polarization model processed 3 4 10-APR-2009 00:51:51 IMAGR Field 3 min = -2.8 MilliJy,max = 2.7 MilliJy 3 2 10-APR-2009 00:51:58 IMAGR BGC Clean: using 103 cell beam + residuals > 747.14 MicroJy 3 2 10-APR-2009 00:51:59 IMAGR 2606 Residual map points loaded 3 4 10-APR-2009 00:52:00 IMAGR Field 3 min algorithm flux= 760.033 MicroJy iter= 5897 3 3 10-APR-2009 00:52:00 IMAGR Field 3 Clean flux density= 224.514 MilliJy 5897 comps 3 3 10-APR-2009 00:52:00 IMAGR Total Cleaned flux density = 10.530 Jy 29857 comps 3 2 10-APR-2009 00:52:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:52:00 IMAGR I Polarization model processed 3 4 10-APR-2009 00:52:04 IMAGR Field 2 min = -2.1 MilliJy,max = 1.7 MilliJy 3 2 10-APR-2009 00:52:09 IMAGR BGC Clean: using 103 cell beam + residuals > 740.36 MicroJy 3 2 10-APR-2009 00:52:10 IMAGR 1332 Residual map points loaded 3 4 10-APR-2009 00:52:10 IMAGR Field 2 min algorithm flux= -749.391 MicroJy iter= 4424 3 3 10-APR-2009 00:52:10 IMAGR Field 2 Clean flux density= 81.609 MilliJy 4424 comps 3 3 10-APR-2009 00:52:10 IMAGR Total Cleaned flux density = 10.528 Jy 30152 comps 3 2 10-APR-2009 00:52:10 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:52:10 IMAGR I Polarization model processed 3 4 10-APR-2009 00:52:14 IMAGR Field 7 min = -1.9 MilliJy,max = 2.1 MilliJy 3 2 10-APR-2009 00:52:19 IMAGR BGC Clean: using 103 cell beam + residuals > 733.42 MicroJy 3 2 10-APR-2009 00:52:20 IMAGR 1627 Residual map points loaded 3 4 10-APR-2009 00:52:20 IMAGR Field 7 min algorithm flux= 743.136 MicroJy iter= 4803 3 3 10-APR-2009 00:52:20 IMAGR Field 7 Clean flux density= 225.680 MilliJy 4803 comps 3 3 10-APR-2009 00:52:20 IMAGR Total Cleaned flux density = 10.529 Jy 30491 comps 3 2 10-APR-2009 00:52:20 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:52:20 IMAGR I Polarization model processed 3 4 10-APR-2009 00:52:24 IMAGR Field 6 min = -2.3 MilliJy,max = 2.7 MilliJy 3 2 10-APR-2009 00:52:29 IMAGR BGC Clean: using 103 cell beam + residuals > 722.01 MicroJy 3 2 10-APR-2009 00:52:31 IMAGR 2192 Residual map points loaded 3 4 10-APR-2009 00:52:31 IMAGR Field 6 min Clean flux = -742.194 MicroJy iter= 5807 3 5 10-APR-2009 00:52:31 IMAGR Field 6 Clean flux density= 17.007 MilliJy 5807 comps 3 5 10-APR-2009 00:52:31 IMAGR Total Cleaned flux density = 10.529 Jy 30808 comps 3 2 10-APR-2009 00:52:31 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:52:31 IMAGR I Polarization model processed 3 4 10-APR-2009 00:52:34 IMAGR Field 5 min = -1.8 MilliJy,max = 1.7 MilliJy 3 2 10-APR-2009 00:52:39 IMAGR BGC Clean: using 103 cell beam + residuals > 711.46 MicroJy 3 2 10-APR-2009 00:52:40 IMAGR 1542 Residual map points loaded 3 4 10-APR-2009 00:52:40 IMAGR Field 5 min Clean flux = 742.255 MicroJy iter= 4398 3 5 10-APR-2009 00:52:40 IMAGR Field 5 Clean flux density= 123.636 MilliJy 4398 comps 3 5 10-APR-2009 00:52:40 IMAGR Total Cleaned flux density = 10.529 Jy 30992 comps 3 2 10-APR-2009 00:52:41 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:52:41 IMAGR I Polarization model processed 3 4 10-APR-2009 00:52:44 IMAGR Field 1 min = -1.1 MilliJy,max = 965.7 MicroJy 3 2 10-APR-2009 00:52:48 IMAGR BGC Clean: using 103 cell beam + residuals > 704.48 MicroJy 3 2 10-APR-2009 00:52:49 IMAGR 163 Residual map points loaded 3 4 10-APR-2009 00:52:51 IMAGR Field 1 min Clean flux = -737.954 MicroJy iter= 1669 3 5 10-APR-2009 00:52:51 IMAGR Field 1 Clean flux density= 9.787 Jy 1669 comps 3 5 10-APR-2009 00:52:51 IMAGR Total Cleaned flux density = 10.529 Jy 31002 comps 3 2 10-APR-2009 00:52:51 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:52:51 IMAGR I Polarization model processed 3 4 10-APR-2009 00:52:55 IMAGR Field 4 min = -1.7 MilliJy,max = 1.8 MilliJy 3 2 10-APR-2009 00:52:58 IMAGR BGC Clean: using 103 cell beam + residuals > 695.65 MicroJy 3 2 10-APR-2009 00:53:00 IMAGR 1723 Residual map points loaded 3 4 10-APR-2009 00:53:00 IMAGR Field 4 min Clean flux = 742.216 MicroJy iter= 4100 3 5 10-APR-2009 00:53:00 IMAGR Field 4 Clean flux density= 70.598 MilliJy 4100 comps 3 5 10-APR-2009 00:53:00 IMAGR Total Cleaned flux density = 10.530 Jy 31098 comps 3 2 10-APR-2009 00:53:00 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:53:00 IMAGR I Polarization model processed 3 4 10-APR-2009 00:53:03 IMAGR Field 3 min = -2.6 MilliJy,max = 2.5 MilliJy 3 2 10-APR-2009 00:53:06 IMAGR BGC Clean: using 103 cell beam + residuals > 673.63 MicroJy 3 2 10-APR-2009 00:53:08 IMAGR 4893 Residual map points loaded 3 4 10-APR-2009 00:53:08 IMAGR Field 3 min Clean flux = 741.718 MicroJy iter= 6040 3 5 10-APR-2009 00:53:08 IMAGR Field 3 Clean flux density= 225.084 MilliJy 6040 comps 3 5 10-APR-2009 00:53:08 IMAGR Total Cleaned flux density = 10.531 Jy 31241 comps 3 2 10-APR-2009 00:53:09 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:53:09 IMAGR I Polarization model processed 3 4 10-APR-2009 00:53:13 IMAGR Field 2 min = -2.1 MilliJy,max = 1.7 MilliJy 3 2 10-APR-2009 00:53:14 IMAGR BGC Clean: using 103 cell beam + residuals > 643.16 MicroJy 3 2 10-APR-2009 00:53:15 IMAGR 5539 Residual map points loaded 3 4 10-APR-2009 00:53:15 IMAGR Field 2 min Clean flux = 742.121 MicroJy iter= 4471 3 5 10-APR-2009 00:53:15 IMAGR Field 2 Clean flux density= 81.851 MilliJy 4471 comps 3 5 10-APR-2009 00:53:15 IMAGR Total Cleaned flux density = 10.531 Jy 31288 comps 3 2 10-APR-2009 00:53:15 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:53:15 IMAGR I Polarization model processed 3 4 10-APR-2009 00:53:19 IMAGR Field 7 min = -1.9 MilliJy,max = 1.9 MilliJy 3 2 10-APR-2009 00:53:20 IMAGR BGC Clean: using 103 cell beam + residuals > 575.78 MicroJy 3 2 10-APR-2009 00:53:23 IMAGR 19968 Residual map points loaded 3 4 10-APR-2009 00:53:23 IMAGR Field 7 min Clean flux = 741.789 MicroJy iter= 4820 3 5 10-APR-2009 00:53:23 IMAGR Field 7 Clean flux density= 226.059 MilliJy 4820 comps 3 5 10-APR-2009 00:53:23 IMAGR Total Cleaned flux density = 10.531 Jy 31305 comps 3 2 10-APR-2009 00:53:23 IMAGR VISDFT: Begin DFT component subtraction 3 3 10-APR-2009 00:53:23 IMAGR I Polarization model processed 3 4 10-APR-2009 00:53:23 IMAGR Peak residual in window 742.255 less than limit 742.277 MicroJy 3 3 10-APR-2009 00:53:23 IMAGR Merging the Clean components files 3 3 10-APR-2009 00:53:25 IMAGR Field 1 compressed from 1669 to 1168 components 3 3 10-APR-2009 00:53:26 IMAGR Field 2 compressed from 4471 to 2752 components 3 3 10-APR-2009 00:53:28 IMAGR Field 3 compressed from 6040 to 3726 components 3 3 10-APR-2009 00:53:28 IMAGR Field 4 compressed from 4100 to 2634 components 3 3 10-APR-2009 00:53:29 IMAGR Field 5 compressed from 4398 to 2693 components 3 3 10-APR-2009 00:53:30 IMAGR Field 6 compressed from 5807 to 3599 components 3 3 10-APR-2009 00:53:31 IMAGR Field 7 compressed from 4820 to 2986 components 3 3 10-APR-2009 00:53:31 IMAGR Field 8 compressed from 0 to 0 components 3 4 10-APR-2009 00:53:35 IMAGR Field 1 min = -1.0 MilliJy,max = 966.8 MicroJy 3 4 10-APR-2009 00:53:38 IMAGR Field 2 min = -2.1 MilliJy,max = 1.7 MilliJy 3 4 10-APR-2009 00:53:41 IMAGR Field 3 min = -2.5 MilliJy,max = 2.5 MilliJy 3 4 10-APR-2009 00:53:44 IMAGR Field 4 min = -1.7 MilliJy,max = 1.8 MilliJy 3 4 10-APR-2009 00:53:52 IMAGR Field 5 min = -1.8 MilliJy,max = 1.7 MilliJy 3 4 10-APR-2009 00:53:56 IMAGR Field 6 min = -2.3 MilliJy,max = 2.6 MilliJy 3 4 10-APR-2009 00:53:59 IMAGR Field 7 min = -1.9 MilliJy,max = 1.9 MilliJy 3 4 10-APR-2009 00:54:00 IMAGR Field 8 min = -707.3 MicroJy,max = 816.6 MicroJy 3 3 10-APR-2009 00:54:00 IMAGR Restoring Clean components 3 3 10-APR-2009 00:54:46 IMAGR Restoring overlapped Clean components 3 3 10-APR-2009 00:54:46 IMAGR Restore 37.587 MilliJy ( 73 CCs) from field 1 to field 2 3 3 10-APR-2009 00:54:46 IMAGR Restore 47.053 MilliJy ( 103 CCs) from field 1 to field 3 3 3 10-APR-2009 00:54:47 IMAGR Restore 2.005 MilliJy ( 132 CCs) from field 1 to field 4 3 3 10-APR-2009 00:54:47 IMAGR Restore 51.607 MilliJy ( 123 CCs) from field 1 to field 5 3 3 10-APR-2009 00:54:47 IMAGR Restore -3.307 MilliJy ( 96 CCs) from field 1 to field 6 3 3 10-APR-2009 00:54:48 IMAGR Restore 95.321 MilliJy ( 69 CCs) from field 1 to field 7 3 3 10-APR-2009 00:54:48 IMAGR Restore 1.449 MilliJy ( 121 CCs) from field 2 to field 1 3 3 10-APR-2009 00:54:48 IMAGR Restore -1.964 MilliJy ( 120 CCs) from field 2 to field 3 3 3 10-APR-2009 00:54:48 IMAGR Restore 29.043 MilliJy ( 213 CCs) from field 2 to field 4 3 3 10-APR-2009 00:54:49 IMAGR Restore 79.188 MilliJy ( 187 CCs) from field 3 to field 1 3 3 10-APR-2009 00:54:49 IMAGR Restore 56.883 MilliJy ( 190 CCs) from field 3 to field 2 3 3 10-APR-2009 00:54:49 IMAGR Restore 11.560 MilliJy ( 71 CCs) from field 3 to field 5 3 3 10-APR-2009 00:54:49 IMAGR Restore 2.373 MilliJy ( 23 CCs) from field 3 to field 8 3 3 10-APR-2009 00:54:49 IMAGR Restore 24.715 MilliJy ( 200 CCs) from field 4 to field 1 3 3 10-APR-2009 00:55:02 IMAGR Restore 28.543 MilliJy ( 192 CCs) from field 4 to field 2 3 3 10-APR-2009 00:55:02 IMAGR Restore -28.979 MilliJy ( 110 CCs) from field 4 to field 6 3 3 10-APR-2009 00:55:03 IMAGR Restore 17.499 MilliJy ( 179 CCs) from field 5 to field 1 3 3 10-APR-2009 00:55:03 IMAGR Restore 8.336 MilliJy ( 89 CCs) from field 5 to field 3 3 3 10-APR-2009 00:55:03 IMAGR Restore 21.893 MilliJy ( 158 CCs) from field 5 to field 7 3 3 10-APR-2009 00:55:03 IMAGR Restore -11.761 MilliJy ( 156 CCs) from field 6 to field 1 3 3 10-APR-2009 00:55:04 IMAGR Restore -12.664 MilliJy ( 88 CCs) from field 6 to field 4 3 3 10-APR-2009 00:55:04 IMAGR Restore 13.998 MilliJy ( 148 CCs) from field 6 to field 7 3 3 10-APR-2009 00:55:04 IMAGR Restore 83.995 MilliJy ( 108 CCs) from field 7 to field 1 3 3 10-APR-2009 00:55:04 IMAGR Restore 100.239 MilliJy ( 203 CCs) from field 7 to field 5 3 3 10-APR-2009 00:55:05 IMAGR Restore -8.370 MilliJy ( 166 CCs) from field 7 to field 6 3 3 10-APR-2009 00:55:05 IMAGR Checking image max/min 3 3 10-APR-2009 00:55:09 IMAGR Field 1 final Clean flux 9.982 Jy 3 3 10-APR-2009 00:55:10 IMAGR Field 2 final Clean flux 204.864 MilliJy 3 3 10-APR-2009 00:55:11 IMAGR Field 3 final Clean flux 278.508 MilliJy 3 3 10-APR-2009 00:55:11 IMAGR Field 4 final Clean flux 88.983 MilliJy 3 3 10-APR-2009 00:55:11 IMAGR Field 5 final Clean flux 287.041 MilliJy 3 3 10-APR-2009 00:55:11 IMAGR Field 6 final Clean flux -23.649 MilliJy 3 3 10-APR-2009 00:55:11 IMAGR Field 7 final Clean flux 357.271 MilliJy 3 3 10-APR-2009 00:55:11 IMAGR Field 8 final Clean flux 2.373 MilliJy 3 6 10-APR-2009 00:55:19 IMAGR Deleting UV work file: 3 4 10-APR-2009 00:55:19 IMAGR Destroyed 1 extension files of type AN 3 4 10-APR-2009 00:55:19 IMAGR Destroyed 1 extension files of type FQ 3 4 10-APR-2009 00:55:20 IMAGR Destroyed UV image file: catno= 12 disk= 1 3 3 10-APR-2009 00:55:25 IMAGR Appears to have ended successfully 3 5 10-APR-2009 00:55:25 IMAGR vlbacald-a 31DEC07 TST: Cpu= 1382.3 Real= 1777 3 2 10-APR-2009 00:55:26 AIPS Resumes 3 3 10-APR-2009 00:55:26 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:55:26 AIPS rm -f /tmp/SETFC@3C345_L,BAND.0-1 >& /dev/null 3 5 10-APR-2009 00:55:34 UVPLT Task UVPLT (release of 31DEC07) begins 3 2 10-APR-2009 00:55:36 UVPLT GFINIS: number records used 756 3 2 10-APR-2009 00:55:36 UVPLT PLTUV: 15984 Points plotted 3 2 10-APR-2009 00:55:36 UVPLT PLTUV: Plot file version 1 created. 3 3 10-APR-2009 00:55:36 UVPLT Appears to have ended successfully 3 5 10-APR-2009 00:55:36 UVPLT vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 2 3 2 10-APR-2009 00:55:36 AIPS Resumes 3 5 10-APR-2009 00:55:36 UVPLT Task UVPLT (release of 31DEC07) begins 3 2 10-APR-2009 00:55:36 UVPLT GFINIS: number records used 380 3 2 10-APR-2009 00:55:36 UVPLT PLTUV: 7992 Points plotted 3 2 10-APR-2009 00:55:36 UVPLT PLTUV: Plot file version 2 created. 3 3 10-APR-2009 00:55:36 UVPLT Appears to have ended successfully 3 5 10-APR-2009 00:55:36 UVPLT vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 10-APR-2009 00:55:36 AIPS Resumes 3 5 10-APR-2009 00:55:36 UVPLT Task UVPLT (release of 31DEC07) begins 3 2 10-APR-2009 00:55:36 UVPLT GFINIS: number records used 380 3 2 10-APR-2009 00:55:36 UVPLT PLTUV: 7992 Points plotted 3 2 10-APR-2009 00:55:36 UVPLT PLTUV: Plot file version 3 created. 3 3 10-APR-2009 00:55:36 UVPLT Appears to have ended successfully 3 5 10-APR-2009 00:55:36 UVPLT vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 10-APR-2009 00:55:36 AIPS Resumes 3 4 10-APR-2009 00:55:37 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:55:37 AIPS Destroyed MA image file: catno= 13 disk= 1 3 4 10-APR-2009 00:55:37 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:55:39 AIPS Destroyed MA image file: catno= 14 disk= 1 3 4 10-APR-2009 00:55:39 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:55:40 AIPS Destroyed MA image file: catno= 15 disk= 1 3 4 10-APR-2009 00:55:40 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:55:41 AIPS Destroyed MA image file: catno= 16 disk= 1 3 4 10-APR-2009 00:55:41 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:55:43 AIPS Destroyed MA image file: catno= 17 disk= 1 3 4 10-APR-2009 00:55:43 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:55:46 AIPS Destroyed MA image file: catno= 18 disk= 1 3 4 10-APR-2009 00:55:46 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:55:47 AIPS Destroyed MA image file: catno= 19 disk= 1 3 4 10-APR-2009 00:55:47 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:55:48 AIPS Destroyed MA image file: catno= 20 disk= 1 3 2 10-APR-2009 00:55:50 AIPS Disk 1 in-CNO 21 renumbered as CNO 12 3 2 10-APR-2009 00:55:51 AIPS Disk 1 in-CNO 22 renumbered as CNO 13 3 2 10-APR-2009 00:55:52 AIPS Disk 1 in-CNO 23 renumbered as CNO 14 3 2 10-APR-2009 00:55:52 AIPS Disk 1 in-CNO 24 renumbered as CNO 15 3 2 10-APR-2009 00:55:53 AIPS Disk 1 in-CNO 25 renumbered as CNO 16 3 2 10-APR-2009 00:55:54 AIPS Disk 1 in-CNO 26 renumbered as CNO 17 3 2 10-APR-2009 00:55:54 AIPS Disk 1 in-CNO 27 renumbered as CNO 18 3 2 10-APR-2009 00:55:55 AIPS Disk 1 in-CNO 28 renumbered as CNO 19 3 5 10-APR-2009 00:55:55 AIPS ' ' 3 5 10-APR-2009 00:55:55 AIPS ' ' 3 2 10-APR-2009 00:55:55 AIPS Found in Version=ABIN 3 5 10-APR-2009 00:55:55 AIPS '* APPEARS TO HAVE ENDED SUCCESSFULLY *' 3 0 10-APR-2009 00:55:55 AIPS 3 0 10-APR-2009 00:55:55 AIPS type'EMPTY CATALOG ?' checkcat 3 2 10-APR-2009 00:55:55 AIPS Disk 1 No files needed renumbering 3 5 10-APR-2009 00:55:55 AIPS 'EMPTY CATALOG ?' 19 3 0 10-APR-2009 00:55:55 AIPS flatfov;nvasimage 3 2 10-APR-2009 00:55:55 AIPS Got(1) disk= 1 user=**** type=UV 19870714.L BAND.1 3 5 10-APR-2009 00:55:56 AIPS '10 SECOND INTEGRATIONS (GUESS)' 3 2 10-APR-2009 00:55:56 AIPS Got(1) disk= 1 user=**** type=UV 3C286.L BAND.1 3 5 10-APR-2009 00:55:57 AIPS 'MINIMUM FOV :41.9196 ARCSEC RADIUS' 3 5 10-APR-2009 00:55:57 FLATN Task FLATN (release of 31DEC07) begins 3 2 10-APR-2009 00:55:57 AIPS Resumes 3 2 10-APR-2009 00:55:58 FLATN Create 3C286 .FLATN . 1 (MA) on disk 1 cno 20 3 4 10-APR-2009 00:55:59 FLATN Field 1 included blc,trc 1 1 310 310 3 6 10-APR-2009 00:56:18 FLATN Field 2 not included in output - outside image 3 6 10-APR-2009 00:56:19 FLATN Field 3 not included in output - outside image 3 6 10-APR-2009 00:56:20 FLATN Field 4 not included in output - outside image 3 6 10-APR-2009 00:56:21 FLATN Field 5 not included in output - outside image 3 6 10-APR-2009 00:56:21 FLATN Field 6 not included in output - outside image 3 6 10-APR-2009 00:56:22 FLATN Field 7 not included in output - outside image 3 2 10-APR-2009 00:56:22 FLATN Now output average image 3 3 10-APR-2009 00:56:23 FLATN Appears to have ended successfully 3 5 10-APR-2009 00:56:23 FLATN vlbacald-a 31DEC07 TST: Cpu= 6.8 Real= 26 3 3 10-APR-2009 00:56:23 AIPS Task FLATN has finished 3 5 10-APR-2009 00:56:24 BLANK Task BLANK (release of 31DEC07) begins 3 2 10-APR-2009 00:56:24 BLANK Create 3C286 .BLANK . 1 (MA) on disk 1 cno 21 3 3 10-APR-2009 00:56:24 BLANK Appears to have ended successfully 3 5 10-APR-2009 00:56:24 BLANK vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 0 3 2 10-APR-2009 00:56:25 AIPS Resumes 3 3 10-APR-2009 00:56:25 AIPS BLANK was not found to be running 3 4 10-APR-2009 00:56:25 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:56:25 AIPS Destroyed MA image file: catno= 20 disk= 1 3 2 10-APR-2009 00:56:25 AIPS Disk 1 in-CNO 21 renumbered as CNO 20 3 2 10-APR-2009 00:56:25 AIPS Got(1) disk= 1 user=**** type=UV 3C345.L BAND.1 3 5 10-APR-2009 00:56:25 AIPS 'MINIMUM FOV :37.8399 ARCSEC RADIUS' 3 5 10-APR-2009 00:56:25 FLATN Task FLATN (release of 31DEC07) begins 3 2 10-APR-2009 00:56:25 FLATN Create 3C345 .FLATN . 1 (MA) on disk 1 cno 21 3 2 10-APR-2009 00:56:25 AIPS Resumes 3 4 10-APR-2009 00:56:26 FLATN Field 1 included blc,trc 1 1 310 310 3 6 10-APR-2009 00:56:38 FLATN Field 2 not included in output - outside image 3 6 10-APR-2009 00:56:39 FLATN Field 3 not included in output - outside image 3 6 10-APR-2009 00:56:40 FLATN Field 4 not included in output - outside image 3 6 10-APR-2009 00:56:41 FLATN Field 5 not included in output - outside image 3 6 10-APR-2009 00:56:42 FLATN Field 6 not included in output - outside image 3 6 10-APR-2009 00:56:43 FLATN Field 7 not included in output - outside image 3 6 10-APR-2009 00:56:43 FLATN Field 8 not included in output - outside image 3 2 10-APR-2009 00:56:43 FLATN Now output average image 3 3 10-APR-2009 00:56:43 FLATN Appears to have ended successfully 3 5 10-APR-2009 00:56:43 FLATN vlbacald-a 31DEC07 TST: Cpu= 6.8 Real= 18 3 3 10-APR-2009 00:56:43 AIPS Task FLATN has finished 3 5 10-APR-2009 00:56:43 BLANK Task BLANK (release of 31DEC07) begins 3 2 10-APR-2009 00:56:43 BLANK Create 3C345 .BLANK . 1 (MA) on disk 1 cno 22 3 2 10-APR-2009 00:56:43 AIPS Resumes 3 3 10-APR-2009 00:56:44 BLANK Appears to have ended successfully 3 5 10-APR-2009 00:56:44 BLANK vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 1 3 3 10-APR-2009 00:56:44 AIPS Task BLANK has finished 3 4 10-APR-2009 00:56:44 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:56:44 AIPS Destroyed MA image file: catno= 21 disk= 1 3 2 10-APR-2009 00:56:44 AIPS Disk 1 in-CNO 22 renumbered as CNO 21 3 2 10-APR-2009 00:56:44 AIPS Disk 1 No files needed renumbering 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=UV 19870714.L BAND.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=UV 19870714.TASAV.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=UV 3C286.L BAND.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=UV 3C345.L BAND.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL001.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL002.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL003.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL004.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL005.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL006.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL007.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL001.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL002.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL003.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL004.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL005.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL006.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL007.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL008.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.BLANK.1 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C286.BLANK.1 3 5 10-APR-2009 00:56:44 AIPS Mean= 2.1472E-05 rms= 4.1634E-04 JY/BEAM over 71429. pixels 3 5 10-APR-2009 00:56:44 AIPS Maximum= 1.3834E-02 at 258 130 1 1 1 1 1 3 5 10-APR-2009 00:56:44 AIPS Skypos: RA 13 31 06.12527 DEC 30 30 25.9025 3 5 10-APR-2009 00:56:44 AIPS Skypos: IPOL 1489.900 MHZ 3 5 10-APR-2009 00:56:44 AIPS Minimum=-7.9641E-03 at 190 193 1 1 1 1 1 3 5 10-APR-2009 00:56:44 AIPS Skypos: RA 13 31 07.55250 DEC 30 30 42.9924 3 5 10-APR-2009 00:56:44 AIPS Skypos: IPOL 1489.900 MHZ 3 5 10-APR-2009 00:56:44 AIPS Flux density = 6.9040E-02 Jy. Beam area = 22.21 pixels 3 2 10-APR-2009 00:56:44 AIPS Waiting for returned adverbs 3 5 10-APR-2009 00:56:44 IMEAN Task IMEAN (release of 31DEC07) begins 3 5 10-APR-2009 00:56:44 IMEAN Image= 3C286 .BLANK . 1 1 xywind= 1 1 310 310 3 5 10-APR-2009 00:56:44 IMEAN Mean and rms found by fitting peak in histogram: 3 5 10-APR-2009 00:56:44 IMEAN Mean=-2.7999E-07 Rms= 1.3856E-04 **** from histogram 3 5 10-APR-2009 00:56:44 IMEAN Mean and rms found by including all data: 3 5 10-APR-2009 00:56:44 IMEAN Mean= 4.2363E-03 Rms= 1.6744E-01 JY/BEAM over 75029 pixels 3 5 10-APR-2009 00:56:44 IMEAN Flux density = 1.4308E+01 Jy. beam area = 22.21 pixels 3 5 10-APR-2009 00:56:44 IMEAN Minimum=-7.9641E-03 at 190 193 1 1 3 5 10-APR-2009 00:56:44 IMEAN Skypos: RA 13 31 07.55250 DEC 30 30 42.9924 3 5 10-APR-2009 00:56:44 IMEAN Maximum= 1.3585E+01 at 155 156 1 1 3 5 10-APR-2009 00:56:44 IMEAN Skypos: RA 13 31 08.28716 DEC 30 30 32.9562 3 5 10-APR-2009 00:56:44 IMEAN Skypos: IPOL 1489.900 MHZ 3 2 10-APR-2009 00:56:44 IMEAN returns adverbs to AIPS 3 3 10-APR-2009 00:56:44 IMEAN Appears to have ended successfully 3 5 10-APR-2009 00:56:44 IMEAN vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 10-APR-2009 00:56:44 AIPS Resumes 3 3 10-APR-2009 00:56:44 AIPS IMEAN was not found to be running 3 2 10-APR-2009 00:56:44 AIPS Got(1) disk= 1 user=**** type=MA 3C345.BLANK.1 3 5 10-APR-2009 00:56:44 AIPS Mean= 8.7169E-05 rms= 8.8636E-04 JY/BEAM over 71429. pixels 3 5 10-APR-2009 00:56:44 AIPS Maximum= 2.5964E-02 at 199 106 1 1 1 1 1 3 5 10-APR-2009 00:56:44 AIPS Skypos: RA 16 42 57.87655 DEC 39 48 24.7554 3 5 10-APR-2009 00:56:44 AIPS Skypos: IPOL 1489.900 MHZ 3 5 10-APR-2009 00:56:44 AIPS Minimum=-1.2740E-03 at 100 146 1 1 1 1 1 3 5 10-APR-2009 00:56:44 AIPS Skypos: RA 16 42 59.98024 DEC 39 48 34.5494 3 5 10-APR-2009 00:56:44 AIPS Skypos: IPOL 1489.900 MHZ 3 5 10-APR-2009 00:56:44 AIPS Flux density = 2.1121E-01 Jy. Beam area = 29.48 pixels 3 2 10-APR-2009 00:56:45 AIPS Waiting for returned adverbs 3 5 10-APR-2009 00:56:45 IMEAN Task IMEAN (release of 31DEC07) begins 3 5 10-APR-2009 00:56:45 IMEAN Image= 3C345 .BLANK . 1 1 xywind= 1 1 310 310 3 5 10-APR-2009 00:56:45 IMEAN Mean and rms found by fitting peak in histogram: 3 5 10-APR-2009 00:56:45 IMEAN Mean= 2.5316E-06 Rms= 1.9312E-04 **** from histogram 3 5 10-APR-2009 00:56:45 IMEAN Mean and rms found by including all data: 3 5 10-APR-2009 00:56:45 IMEAN Mean= 3.5182E-03 Rms= 1.1625E-01 JY/BEAM over 75029 pixels 3 5 10-APR-2009 00:56:45 IMEAN Flux density = 8.9543E+00 Jy. beam area = 29.48 pixels 3 5 10-APR-2009 00:56:45 IMEAN Minimum=-1.7789E-03 at 149 149 1 1 3 5 10-APR-2009 00:56:45 IMEAN Skypos: RA 16 42 58.93900 DEC 39 48 35.2844 3 5 10-APR-2009 00:56:45 IMEAN Maximum= 8.2556E+00 at 155 156 1 1 3 5 10-APR-2009 00:56:45 IMEAN Skypos: RA 16 42 58.81150 DEC 39 48 36.9983 3 5 10-APR-2009 00:56:45 IMEAN Skypos: IPOL 1489.900 MHZ 3 2 10-APR-2009 00:56:45 IMEAN returns adverbs to AIPS 3 3 10-APR-2009 00:56:45 IMEAN Appears to have ended successfully 3 5 10-APR-2009 00:56:45 IMEAN vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 10-APR-2009 00:56:45 AIPS Resumes 3 3 10-APR-2009 00:56:45 AIPS IMEAN was not found to be running 3 2 10-APR-2009 00:56:45 AIPS Got(1) disk= 1 user=**** type=MA 3C286.BLANK.1 3 2 10-APR-2009 00:56:45 AIPS Got(O) disk= 1 user=**** type=MA 3C286.BLANK.1 3 5 10-APR-2009 00:56:45 PBCOR Task PBCOR (release of 31DEC07) begins 3 2 10-APR-2009 00:56:45 PBCOR Create 3C286 .RADCOR. 1 (MA) on disk 1 cno 22 3 2 10-APR-2009 00:56:45 AIPS Resumes 3 3 10-APR-2009 00:56:45 PBCOR Appears to have ended successfully 3 5 10-APR-2009 00:56:45 PBCOR vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 0 3 3 10-APR-2009 00:56:45 AIPS Task PBCOR has finished 3 4 10-APR-2009 00:56:45 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:56:45 AIPS Destroyed MA image file: catno= 20 disk= 1 3 2 10-APR-2009 00:56:45 AIPS Disk 1 in-CNO 21 renumbered as CNO 20 3 2 10-APR-2009 00:56:45 AIPS Disk 1 in-CNO 22 renumbered as CNO 21 3 2 10-APR-2009 00:56:45 AIPS Got(1) disk= 1 user=**** type=MA 3C345.BLANK.1 3 2 10-APR-2009 00:56:45 AIPS Got(O) disk= 1 user=**** type=MA 3C345.BLANK.1 3 5 10-APR-2009 00:56:45 PBCOR Task PBCOR (release of 31DEC07) begins 3 2 10-APR-2009 00:56:45 PBCOR Create 3C345 .RADCOR. 1 (MA) on disk 1 cno 22 3 2 10-APR-2009 00:56:45 AIPS Resumes 3 3 10-APR-2009 00:56:46 PBCOR Appears to have ended successfully 3 5 10-APR-2009 00:56:46 PBCOR vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 1 3 3 10-APR-2009 00:56:46 AIPS Task PBCOR has finished 3 4 10-APR-2009 00:56:47 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:56:47 AIPS Destroyed MA image file: catno= 20 disk= 1 3 2 10-APR-2009 00:56:47 AIPS Disk 1 in-CNO 21 renumbered as CNO 20 3 2 10-APR-2009 00:56:47 AIPS Disk 1 in-CNO 22 renumbered as CNO 21 3 2 10-APR-2009 00:56:47 AIPS Disk 1 No files needed renumbering 3 2 10-APR-2009 00:56:47 AIPS Got(1) disk= 1 user=**** type=MA 3C286.RADCOR.1 3 2 10-APR-2009 00:56:47 AIPS Got(O) disk= 1 user=**** type=MA 3C286.RADCOR.1 3 5 10-APR-2009 00:56:47 CPYRT Task CPYRT (release of 31DEC07) begins 3 2 10-APR-2009 00:56:47 CPYRT Create 3C286 .NVAS08. 1 (MA) on disk 1 cno 22 3 2 10-APR-2009 00:56:47 CPYRT ZTXOP2: using translated file name = 3 2 10-APR-2009 00:56:47 CPYRT ZTXOP2: /home/vlbacald-a/vlbacald/Arch_Cprt 3 2 10-APR-2009 00:56:47 AIPS Resumes 3 3 10-APR-2009 00:56:47 CPYRT Appears to have ended successfully 3 5 10-APR-2009 00:56:47 CPYRT vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 3 10-APR-2009 00:56:48 AIPS Task CPYRT has finished 3 4 10-APR-2009 00:56:48 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:56:48 AIPS Destroyed MA image file: catno= 20 disk= 1 3 2 10-APR-2009 00:56:48 AIPS Disk 1 in-CNO 21 renumbered as CNO 20 3 2 10-APR-2009 00:56:48 AIPS Disk 1 in-CNO 22 renumbered as CNO 21 3 2 10-APR-2009 00:56:48 AIPS Got(1) disk= 1 user=**** type=MA 3C345.RADCOR.1 3 2 10-APR-2009 00:56:48 AIPS Got(O) disk= 1 user=**** type=MA 3C345.RADCOR.1 3 5 10-APR-2009 00:56:48 CPYRT Task CPYRT (release of 31DEC07) begins 3 2 10-APR-2009 00:56:48 CPYRT Create 3C345 .NVAS08. 1 (MA) on disk 1 cno 22 3 2 10-APR-2009 00:56:48 CPYRT ZTXOP2: using translated file name = 3 2 10-APR-2009 00:56:48 CPYRT ZTXOP2: /home/vlbacald-a/vlbacald/Arch_Cprt 3 3 10-APR-2009 00:56:48 CPYRT Appears to have ended successfully 3 5 10-APR-2009 00:56:48 CPYRT vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 0 3 2 10-APR-2009 00:56:48 AIPS Resumes 3 3 10-APR-2009 00:56:48 AIPS CPYRT was not found to be running 3 4 10-APR-2009 00:56:48 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 00:56:48 AIPS Destroyed MA image file: catno= 20 disk= 1 3 2 10-APR-2009 00:56:48 AIPS Disk 1 in-CNO 21 renumbered as CNO 20 3 2 10-APR-2009 00:56:48 AIPS Disk 1 in-CNO 22 renumbered as CNO 21 3 0 10-APR-2009 00:56:48 AIPS nvasarch 3 2 10-APR-2009 00:56:48 AIPS Disk 1 No files needed renumbering 3 5 10-APR-2009 00:56:48 AIPS 'AG0145_1987JUL14_1' 3 2 10-APR-2009 00:56:48 AIPS Got(1) disk= 1 user=**** type=UV 19870714.L BAND.1 3 3 10-APR-2009 00:56:48 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:56:48 AIPS umask 0;mkdir $ADAT/AG0145 >& /dev/null 3 5 10-APR-2009 00:56:57 FITAB Task FITAB (release of 31DEC07) begins 3 4 10-APR-2009 00:56:57 FITAB Writing to disk file: ADAT:AG0145_1987JUL14_1_1.51F26AA.uvfits 3 2 10-APR-2009 00:56:57 AIPS Resumes 3 3 10-APR-2009 00:56:57 FITAB Writing UV data: User20874 Disk 1 Name 19870714.L BAND.1 3 3 10-APR-2009 00:56:57 FITAB Writing visibilities 1 to 19971 3 3 10-APR-2009 00:56:57 FITAB Writing HIstory to main FITS header 3 3 10-APR-2009 00:56:58 FITAB Writing binary table of type AN 3 3 10-APR-2009 00:56:58 FITAB Writing binary table of type NX 3 3 10-APR-2009 00:56:58 FITAB Writing binary table of type SU 3 3 10-APR-2009 00:56:58 FITAB Writing binary table of type FQ 3 3 10-APR-2009 00:56:59 FITAB Writing binary table of type CL 3 3 10-APR-2009 00:57:01 FITAB Writing binary table of type CL 3 3 10-APR-2009 00:57:02 FITAB Writing binary table of type CL 3 3 10-APR-2009 00:57:03 FITAB Writing binary table of type TY 3 3 10-APR-2009 00:57:04 FITAB Writing binary table of type WX 3 3 10-APR-2009 00:57:04 FITAB Writing binary table of type FG 3 3 10-APR-2009 00:57:05 FITAB Writing binary table of type FG 3 3 10-APR-2009 00:57:06 FITAB Writing binary table of type XX 3 3 10-APR-2009 00:57:07 FITAB Writing binary table of type SN 3 3 10-APR-2009 00:57:07 FITAB Writing binary table of type SN 3 2 10-APR-2009 00:57:07 FITAB Writing binary table of type UV 3 2 10-APR-2009 00:57:08 FITAB Writing end-of-file mark 3 3 10-APR-2009 00:57:08 FITAB Appears to have ended successfully 3 5 10-APR-2009 00:57:08 FITAB vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 11 3 3 10-APR-2009 00:57:09 AIPS Task FITAB has finished 3 2 10-APR-2009 00:57:09 AIPS Got(1) disk= 1 user=**** type=UV 19870714.TASAV.1 3 5 10-APR-2009 00:57:09 FITAB Task FITAB (release of 31DEC07) begins 3 4 10-APR-2009 00:57:09 FITAB Writing to disk file: ADAT:AG0145_1987JUL14_1_1.51F26AA.clfits 3 2 10-APR-2009 00:57:09 AIPS Resumes 3 3 10-APR-2009 00:57:09 FITAB Writing UV data: User20874 Disk 1 Name 19870714.TASAV.1 3 3 10-APR-2009 00:57:09 FITAB Writing visibilities 1 to 1 3 3 10-APR-2009 00:57:09 FITAB Writing HIstory to main FITS header 3 3 10-APR-2009 00:57:10 FITAB Writing binary table of type AN 3 3 10-APR-2009 00:57:10 FITAB Writing binary table of type NX 3 3 10-APR-2009 00:57:10 FITAB Writing binary table of type SU 3 3 10-APR-2009 00:57:10 FITAB Writing binary table of type FQ 3 3 10-APR-2009 00:57:11 FITAB Writing binary table of type CL 3 3 10-APR-2009 00:57:11 FITAB Writing binary table of type CL 3 3 10-APR-2009 00:57:12 FITAB Writing binary table of type CL 3 3 10-APR-2009 00:57:12 FITAB Writing binary table of type TY 3 3 10-APR-2009 00:57:12 FITAB Writing binary table of type WX 3 3 10-APR-2009 00:57:12 FITAB Writing binary table of type FG 3 3 10-APR-2009 00:57:13 FITAB Writing binary table of type FG 3 3 10-APR-2009 00:57:13 FITAB Writing binary table of type XX 3 3 10-APR-2009 00:57:13 FITAB Writing binary table of type SN 3 3 10-APR-2009 00:57:14 FITAB Writing binary table of type SN 3 2 10-APR-2009 00:57:14 FITAB Writing binary table of type UV 3 2 10-APR-2009 00:57:14 FITAB Writing end-of-file mark 3 3 10-APR-2009 00:57:14 FITAB Appears to have ended successfully 3 5 10-APR-2009 00:57:14 FITAB vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 5 3 3 10-APR-2009 00:57:14 AIPS Task FITAB has finished 3 3 10-APR-2009 00:57:14 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:57:14 AIPS \mv -f $ADAT/AG0145_1987JUL14_1_* $ADAT/AG0145 >& /dev/null 3 2 10-APR-2009 00:57:16 AIPS Got(1) disk= 1 user=**** type=UV 3C286.L BAND.1 3 2 10-APR-2009 00:57:16 AIPS Got(1) disk= 1 user=**** type=UV 3C345.L BAND.1 3 2 10-APR-2009 00:57:16 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL001.1 3 2 10-APR-2009 00:57:16 AIPS Got(1) disk= 1 user=**** type=UV 3C286.L BAND.1 3 3 10-APR-2009 00:57:16 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:57:16 AIPS umask 0;mkdir $aimg/J133108.2+303032 >& /dev/null 3 5 10-APR-2009 00:57:16 FITAB Task FITAB (release of 31DEC07) begins 3 4 10-APR-2009 00:57:16 FITAB Writing to disk file: AIMG:1.51F26AA_AG0145_1987JUL14_1.uvfits 3 3 10-APR-2009 00:57:16 FITAB Writing UV data: User20874 Disk 1 Name 3C286.L BAND.1 3 3 10-APR-2009 00:57:16 FITAB Writing visibilities 1 to 14000 3 2 10-APR-2009 00:57:16 AIPS Resumes 3 3 10-APR-2009 00:57:16 FITAB Writing HIstory to main FITS header 3 3 10-APR-2009 00:57:17 FITAB Writing binary table of type FQ 3 3 10-APR-2009 00:57:17 FITAB Writing binary table of type AN 3 3 10-APR-2009 00:57:17 FITAB Writing binary table of type WX 3 3 10-APR-2009 00:57:17 FITAB Writing binary table of type XX 3 2 10-APR-2009 00:57:18 FITAB Writing binary table of type UV 3 2 10-APR-2009 00:57:18 FITAB Writing end-of-file mark 3 3 10-APR-2009 00:57:18 FITAB Appears to have ended successfully 3 5 10-APR-2009 00:57:18 FITAB vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 2 3 3 10-APR-2009 00:57:19 AIPS Task FITAB has finished 3 5 10-APR-2009 00:57:19 LWPLA Task LWPLA (release of 31DEC07) begins 3 3 10-APR-2009 00:57:19 LWPLA No clipping or scaling applied to grey scale pixels 3 2 10-APR-2009 00:57:19 AIPS Resumes 3 6 10-APR-2009 00:57:19 LWPLA ZLWIO: plotter file = /home/vlbacald-a/vlbacald/img/1.51F26AA_ 3 6 10-APR-2009 00:57:19 LWPLA AG0145_1987JUL14_1.vis.ps 3 2 10-APR-2009 00:57:19 LWPLA Writing plot file version 3 to page 1 3 3 10-APR-2009 00:57:20 LWPLA Appears to have ended successfully 3 5 10-APR-2009 00:57:20 LWPLA vlbacald-a 31DEC07 TST: Cpu= 0.4 Real= 1 3 3 10-APR-2009 00:57:20 AIPS Task LWPLA has finished 3 3 10-APR-2009 00:57:20 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:57:20 AIPS convert $aimg/1.51F26AA_AG0145_1987JUL14_1.vis.ps $aimg/1.51F26A 3 3 10-APR-2009 00:57:20 AIPS A_AG0145_1987JUL14_1.vis.gif >& /dev/null 3 5 10-APR-2009 00:59:15 LWPLA Task LWPLA (release of 31DEC07) begins 3 3 10-APR-2009 00:59:16 LWPLA No clipping or scaling applied to grey scale pixels 3 2 10-APR-2009 00:59:16 AIPS Resumes 3 6 10-APR-2009 00:59:17 LWPLA ZLWIO: plotter file = /home/vlbacald-a/vlbacald/img/1.51F26AA_ 3 6 10-APR-2009 00:59:20 LWPLA AG0145_1987JUL14_1.ri.ps 3 2 10-APR-2009 00:59:20 LWPLA Writing plot file version 2 to page 1 3 3 10-APR-2009 00:59:22 LWPLA Appears to have ended successfully 3 5 10-APR-2009 00:59:22 LWPLA vlbacald-a 31DEC07 TST: Cpu= 0.3 Real= 8 3 3 10-APR-2009 00:59:22 AIPS Task LWPLA has finished 3 3 10-APR-2009 00:59:22 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 00:59:22 AIPS convert $aimg/1.51F26AA_AG0145_1987JUL14_1.ri.ps $aimg/1.51F26AA 3 3 10-APR-2009 00:59:22 AIPS _AG0145_1987JUL14_1.ri.gif >& /dev/null 3 5 10-APR-2009 01:00:10 LWPLA Task LWPLA (release of 31DEC07) begins 3 3 10-APR-2009 01:00:10 LWPLA No clipping or scaling applied to grey scale pixels 3 6 10-APR-2009 01:00:11 LWPLA ZLWIO: plotter file = /home/vlbacald-a/vlbacald/img/1.51F26AA_ 3 6 10-APR-2009 01:00:11 LWPLA AG0145_1987JUL14_1.uv.ps 3 2 10-APR-2009 01:00:11 LWPLA Writing plot file version 1 to page 1 3 2 10-APR-2009 01:00:11 AIPS Resumes 3 3 10-APR-2009 01:00:15 LWPLA Appears to have ended successfully 3 5 10-APR-2009 01:00:15 LWPLA vlbacald-a 31DEC07 TST: Cpu= 0.7 Real= 5 3 3 10-APR-2009 01:00:15 AIPS Task LWPLA has finished 3 3 10-APR-2009 01:00:15 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:00:15 AIPS convert $aimg/1.51F26AA_AG0145_1987JUL14_1.uv.ps $aimg/1.51F26AA 3 3 10-APR-2009 01:00:15 AIPS _AG0145_1987JUL14_1.uv.gif >& /dev/null 3 3 10-APR-2009 01:00:44 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:00:44 AIPS chmod 666 $aimg/1.51F26AA_AG0145_1987JUL14_1* >& /dev/null 3 3 10-APR-2009 01:00:51 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:00:51 AIPS \mv -f $aimg/1.51F26AA_AG0145_1987JUL14_1.* $aimg/J133108.2+3030 3 3 10-APR-2009 01:00:51 AIPS 32 >& /dev/null 3 2 10-APR-2009 01:00:56 AIPS Got(1) disk= 1 user=**** type=UV 3C345.L BAND.1 3 3 10-APR-2009 01:00:56 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:00:56 AIPS umask 0;mkdir $aimg/J164258.8+394836 >& /dev/null 3 5 10-APR-2009 01:00:58 FITAB Task FITAB (release of 31DEC07) begins 3 4 10-APR-2009 01:00:58 FITAB Writing to disk file: AIMG:1.51F26AA_AG0145_1987JUL14_1.uvfits 3 3 10-APR-2009 01:00:58 FITAB Writing UV data: User20874 Disk 1 Name 3C345.L BAND.1 3 3 10-APR-2009 01:00:58 FITAB Writing visibilities 1 to 3996 3 2 10-APR-2009 01:00:58 AIPS Resumes 3 3 10-APR-2009 01:00:58 FITAB Writing HIstory to main FITS header 3 3 10-APR-2009 01:00:59 FITAB Writing binary table of type FQ 3 3 10-APR-2009 01:00:59 FITAB Writing binary table of type AN 3 3 10-APR-2009 01:00:59 FITAB Writing binary table of type WX 3 3 10-APR-2009 01:00:59 FITAB Writing binary table of type XX 3 2 10-APR-2009 01:01:00 FITAB Writing binary table of type UV 3 2 10-APR-2009 01:01:01 FITAB Writing end-of-file mark 3 3 10-APR-2009 01:01:01 FITAB Appears to have ended successfully 3 5 10-APR-2009 01:01:01 FITAB vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 3 3 3 10-APR-2009 01:01:01 AIPS Task FITAB has finished 3 5 10-APR-2009 01:01:01 LWPLA Task LWPLA (release of 31DEC07) begins 3 3 10-APR-2009 01:01:01 LWPLA No clipping or scaling applied to grey scale pixels 3 6 10-APR-2009 01:01:01 LWPLA ZLWIO: plotter file = /home/vlbacald-a/vlbacald/img/1.51F26AA_ 3 6 10-APR-2009 01:01:01 LWPLA AG0145_1987JUL14_1.vis.ps 3 2 10-APR-2009 01:01:01 LWPLA Writing plot file version 3 to page 1 3 2 10-APR-2009 01:01:01 AIPS Resumes 3 3 10-APR-2009 01:01:02 LWPLA Appears to have ended successfully 3 5 10-APR-2009 01:01:02 LWPLA vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 1 3 3 10-APR-2009 01:01:02 AIPS Task LWPLA has finished 3 3 10-APR-2009 01:01:02 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:02 AIPS convert $aimg/1.51F26AA_AG0145_1987JUL14_1.vis.ps $aimg/1.51F26A 3 3 10-APR-2009 01:01:02 AIPS A_AG0145_1987JUL14_1.vis.gif >& /dev/null 3 5 10-APR-2009 01:01:06 LWPLA Task LWPLA (release of 31DEC07) begins 3 3 10-APR-2009 01:01:06 LWPLA No clipping or scaling applied to grey scale pixels 3 6 10-APR-2009 01:01:06 LWPLA ZLWIO: plotter file = /home/vlbacald-a/vlbacald/img/1.51F26AA_ 3 6 10-APR-2009 01:01:06 LWPLA AG0145_1987JUL14_1.ri.ps 3 2 10-APR-2009 01:01:06 LWPLA Writing plot file version 2 to page 1 3 3 10-APR-2009 01:01:07 LWPLA Appears to have ended successfully 3 5 10-APR-2009 01:01:07 LWPLA vlbacald-a 31DEC07 TST: Cpu= 0.1 Real= 1 3 2 10-APR-2009 01:01:08 AIPS Resumes 3 3 10-APR-2009 01:01:08 AIPS LWPLA was not found to be running 3 3 10-APR-2009 01:01:08 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:08 AIPS convert $aimg/1.51F26AA_AG0145_1987JUL14_1.ri.ps $aimg/1.51F26AA 3 3 10-APR-2009 01:01:08 AIPS _AG0145_1987JUL14_1.ri.gif >& /dev/null 3 5 10-APR-2009 01:01:08 LWPLA Task LWPLA (release of 31DEC07) begins 3 3 10-APR-2009 01:01:08 LWPLA No clipping or scaling applied to grey scale pixels 3 6 10-APR-2009 01:01:08 LWPLA ZLWIO: plotter file = /home/vlbacald-a/vlbacald/img/1.51F26AA_ 3 6 10-APR-2009 01:01:08 LWPLA AG0145_1987JUL14_1.uv.ps 3 2 10-APR-2009 01:01:08 LWPLA Writing plot file version 1 to page 1 3 2 10-APR-2009 01:01:08 AIPS Resumes 3 3 10-APR-2009 01:01:11 LWPLA Appears to have ended successfully 3 5 10-APR-2009 01:01:11 LWPLA vlbacald-a 31DEC07 TST: Cpu= 0.2 Real= 3 3 3 10-APR-2009 01:01:11 AIPS Task LWPLA has finished 3 3 10-APR-2009 01:01:11 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:11 AIPS convert $aimg/1.51F26AA_AG0145_1987JUL14_1.uv.ps $aimg/1.51F26AA 3 3 10-APR-2009 01:01:11 AIPS _AG0145_1987JUL14_1.uv.gif >& /dev/null 3 3 10-APR-2009 01:01:12 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:12 AIPS chmod 666 $aimg/1.51F26AA_AG0145_1987JUL14_1* >& /dev/null 3 3 10-APR-2009 01:01:12 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:12 AIPS \mv -f $aimg/1.51F26AA_AG0145_1987JUL14_1.* $aimg/J164258.8+3948 3 3 10-APR-2009 01:01:12 AIPS 36 >& /dev/null 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL001.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL002.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL003.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL004.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL005.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL006.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL007.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL001.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL002.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL003.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL004.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL005.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL006.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL007.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL008.1 3 2 10-APR-2009 01:01:12 AIPS Got(1) disk= 1 user=**** type=MA 3C286.NVAS08.1 3 3 10-APR-2009 01:01:13 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:13 AIPS umask 0;mkdir $aimg/J133108.2+303032 >& /dev/null 3 5 10-APR-2009 01:01:13 FITAB Task FITAB (release of 31DEC07) begins 3 4 10-APR-2009 01:01:13 FITAB Writing to disk file: AIMG:1.51I1.20_AG0145_1987JUL14_1_138.U37.5S 3 3 10-APR-2009 01:01:13 FITAB Writing image: User20874 Disk 1 Name 3C286.NVAS08.1 3 2 10-APR-2009 01:01:13 AIPS Resumes 3 3 10-APR-2009 01:01:13 FITAB Writing HIstory to main FITS header 3 3 10-APR-2009 01:01:13 FITAB Now writing the image 3 2 10-APR-2009 01:01:15 FITAB Writing end-of-file marks 3 3 10-APR-2009 01:01:15 FITAB Appears to have ended successfully 3 5 10-APR-2009 01:01:15 FITAB vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 2 3 3 10-APR-2009 01:01:15 AIPS Task FITAB has finished 3 3 10-APR-2009 01:01:15 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:15 AIPS umask 0;\mv -f $aimg/1.51I1.20_AG0145_1987JUL14_1_138.U37.5S $a 3 3 10-APR-2009 01:01:15 AIPS img/1.51I1.20_AG0145_1987JUL14_1_138.U37.5S.imfits >& /dev/null 3 3 10-APR-2009 01:01:15 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:15 AIPS umask 0;fits2jpeg -nonLinear -fits $aimg/1.51I1.20_AG0145_1987JU 3 3 10-APR-2009 01:01:15 AIPS L14_1_138.U37.5S.imfits -jpeg $aimg/1.51I1.20_AG0145_1987JUL14_1 3 3 10-APR-2009 01:01:15 AIPS _138.U37.5S.jpg ; convert -size 150x150 $aimg/1.51I1.20_AG0145_1 3 3 10-APR-2009 01:01:15 AIPS 987JUL14_1_138.U37.5S.jpg -resize 150x150 -gamma 1.5 -depth 32 $ 3 3 10-APR-2009 01:01:15 AIPS aimg/1.51I1.20_AG0145_1987JUL14_1_138.U37.5S.JPG ; \mv -f $aimg/ 3 3 10-APR-2009 01:01:15 AIPS 1.51I1.20_AG0145_1987JUL14_1_138.U37.5S* $aimg/J133108.2+303032 3 3 10-APR-2009 01:01:15 AIPS >& /dev/null 3 2 10-APR-2009 01:01:22 AIPS Got(1) disk= 1 user=**** type=MA 3C345.NVAS08.1 3 3 10-APR-2009 01:01:22 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:22 AIPS umask 0;mkdir $aimg/J164258.8+394836 >& /dev/null 3 5 10-APR-2009 01:01:22 FITAB Task FITAB (release of 31DEC07) begins 3 4 10-APR-2009 01:01:22 FITAB Writing to disk file: AIMG:1.51I1.24_AG0145_1987JUL14_1_193.U33.4S 3 3 10-APR-2009 01:01:22 FITAB Writing image: User20874 Disk 1 Name 3C345.NVAS08.1 3 2 10-APR-2009 01:01:22 AIPS Resumes 3 3 10-APR-2009 01:01:23 FITAB Writing HIstory to main FITS header 3 3 10-APR-2009 01:01:23 FITAB Now writing the image 3 2 10-APR-2009 01:01:23 FITAB Writing end-of-file marks 3 3 10-APR-2009 01:01:23 FITAB Appears to have ended successfully 3 5 10-APR-2009 01:01:23 FITAB vlbacald-a 31DEC07 TST: Cpu= 0.0 Real= 1 3 3 10-APR-2009 01:01:24 AIPS Task FITAB has finished 3 3 10-APR-2009 01:01:24 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:24 AIPS umask 0;\mv -f $aimg/1.51I1.24_AG0145_1987JUL14_1_193.U33.4S $a 3 3 10-APR-2009 01:01:24 AIPS img/1.51I1.24_AG0145_1987JUL14_1_193.U33.4S.imfits >& /dev/null 3 3 10-APR-2009 01:01:24 AIPS SYSTEM command to be executed is: 3 3 10-APR-2009 01:01:24 AIPS umask 0;fits2jpeg -nonLinear -fits $aimg/1.51I1.24_AG0145_1987JU 3 3 10-APR-2009 01:01:24 AIPS L14_1_193.U33.4S.imfits -jpeg $aimg/1.51I1.24_AG0145_1987JUL14_1 3 3 10-APR-2009 01:01:24 AIPS _193.U33.4S.jpg ; convert -size 150x150 $aimg/1.51I1.24_AG0145_1 3 3 10-APR-2009 01:01:24 AIPS 987JUL14_1_193.U33.4S.jpg -resize 150x150 -gamma 1.5 -depth 32 $ 3 3 10-APR-2009 01:01:24 AIPS aimg/1.51I1.24_AG0145_1987JUL14_1_193.U33.4S.JPG ; \mv -f $aimg/ 3 3 10-APR-2009 01:01:24 AIPS 1.51I1.24_AG0145_1987JUL14_1_193.U33.4S* $aimg/J164258.8+394836 3 3 10-APR-2009 01:01:24 AIPS >& /dev/null 3 5 10-APR-2009 01:01:24 AIPS 'NVASARCH DONE - CLEANING UP' 3 2 10-APR-2009 01:01:24 AIPS Disk 1 No files needed renumbering 3 2 10-APR-2009 01:01:24 AIPS Got(1) disk= 1 user=**** type=UV 19870714.L BAND.1 3 5 10-APR-2009 01:01:24 AIPS 'CLEANUP SSRC, ALL:' 2 21 3 2 10-APR-2009 01:01:24 AIPS Got(1) disk= 1 user=**** type=MA 3C345.NVAS08.1 3 4 10-APR-2009 01:01:24 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:25 AIPS Destroyed MA image file: catno= 21 disk= 1 3 2 10-APR-2009 01:01:25 AIPS Got(1) disk= 1 user=**** type=MA 3C286.NVAS08.1 3 4 10-APR-2009 01:01:25 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:25 AIPS Destroyed MA image file: catno= 20 disk= 1 3 2 10-APR-2009 01:01:25 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL008.1 3 4 10-APR-2009 01:01:26 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:26 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:26 AIPS Destroyed MA image file: catno= 19 disk= 1 3 2 10-APR-2009 01:01:26 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL007.1 3 4 10-APR-2009 01:01:27 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:27 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:29 AIPS Destroyed MA image file: catno= 18 disk= 1 3 2 10-APR-2009 01:01:29 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL006.1 3 4 10-APR-2009 01:01:30 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:30 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:35 AIPS Destroyed MA image file: catno= 17 disk= 1 3 2 10-APR-2009 01:01:35 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL005.1 3 4 10-APR-2009 01:01:35 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:36 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:38 AIPS Destroyed MA image file: catno= 16 disk= 1 3 2 10-APR-2009 01:01:38 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL004.1 3 4 10-APR-2009 01:01:39 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:39 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:41 AIPS Destroyed MA image file: catno= 15 disk= 1 3 2 10-APR-2009 01:01:41 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL003.1 3 4 10-APR-2009 01:01:43 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:44 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:47 AIPS Destroyed MA image file: catno= 14 disk= 1 3 2 10-APR-2009 01:01:47 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL002.1 3 4 10-APR-2009 01:01:47 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:47 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:51 AIPS Destroyed MA image file: catno= 13 disk= 1 3 2 10-APR-2009 01:01:51 AIPS Got(1) disk= 1 user=**** type=MA 3C345.ICL001.1 3 4 10-APR-2009 01:01:51 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:51 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:53 AIPS Destroyed MA image file: catno= 12 disk= 1 3 2 10-APR-2009 01:01:53 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL007.1 3 4 10-APR-2009 01:01:55 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:55 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:01:57 AIPS Destroyed MA image file: catno= 11 disk= 1 3 2 10-APR-2009 01:01:57 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL006.1 3 4 10-APR-2009 01:01:58 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:01:59 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:02:03 AIPS Destroyed MA image file: catno= 10 disk= 1 3 2 10-APR-2009 01:02:03 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL005.1 3 4 10-APR-2009 01:02:03 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:04 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:02:07 AIPS Destroyed MA image file: catno= 9 disk= 1 3 2 10-APR-2009 01:02:07 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL004.1 3 4 10-APR-2009 01:02:08 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:09 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:02:13 AIPS Destroyed MA image file: catno= 8 disk= 1 3 2 10-APR-2009 01:02:13 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL003.1 3 4 10-APR-2009 01:02:13 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:15 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:02:19 AIPS Destroyed MA image file: catno= 7 disk= 1 3 2 10-APR-2009 01:02:19 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL002.1 3 4 10-APR-2009 01:02:20 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:20 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:02:24 AIPS Destroyed MA image file: catno= 6 disk= 1 3 2 10-APR-2009 01:02:24 AIPS Got(1) disk= 1 user=**** type=MA 3C286.ICL001.1 3 4 10-APR-2009 01:02:24 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:25 AIPS Destroyed 1 extension files of type CC 3 4 10-APR-2009 01:02:28 AIPS Destroyed MA image file: catno= 5 disk= 1 3 2 10-APR-2009 01:02:28 AIPS Got(1) disk= 1 user=**** type=UV 3C345.L BAND.1 3 4 10-APR-2009 01:02:30 AIPS Destroyed 3 extension files of type PL 3 4 10-APR-2009 01:02:30 AIPS Destroyed 1 extension files of type XX 3 4 10-APR-2009 01:02:31 AIPS Destroyed 1 extension files of type WX 3 4 10-APR-2009 01:02:31 AIPS Destroyed 1 extension files of type AN 3 4 10-APR-2009 01:02:31 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:31 AIPS Destroyed 1 extension files of type FQ 3 4 10-APR-2009 01:02:31 AIPS Destroyed UV image file: catno= 4 disk= 1 3 2 10-APR-2009 01:02:32 AIPS Got(1) disk= 1 user=**** type=UV 3C286.L BAND.1 3 4 10-APR-2009 01:02:33 AIPS Destroyed 3 extension files of type PL 3 4 10-APR-2009 01:02:34 AIPS Destroyed 1 extension files of type XX 3 4 10-APR-2009 01:02:34 AIPS Destroyed 1 extension files of type WX 3 4 10-APR-2009 01:02:34 AIPS Destroyed 1 extension files of type AN 3 4 10-APR-2009 01:02:34 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:34 AIPS Destroyed 1 extension files of type FQ 3 4 10-APR-2009 01:02:35 AIPS Destroyed UV image file: catno= 3 disk= 1 3 2 10-APR-2009 01:02:35 AIPS Got(1) disk= 1 user=**** type=UV 19870714.TASAV.1 3 4 10-APR-2009 01:02:35 AIPS Destroyed 2 extension files of type SN 3 4 10-APR-2009 01:02:36 AIPS Destroyed 1 extension files of type XX 3 4 10-APR-2009 01:02:36 AIPS Destroyed 2 extension files of type FG 3 4 10-APR-2009 01:02:37 AIPS Destroyed 1 extension files of type WX 3 4 10-APR-2009 01:02:37 AIPS Destroyed 1 extension files of type TY 3 4 10-APR-2009 01:02:39 AIPS Destroyed 3 extension files of type CL 3 4 10-APR-2009 01:02:39 AIPS Destroyed 1 extension files of type FQ 3 4 10-APR-2009 01:02:40 AIPS Destroyed 1 extension files of type SU 3 4 10-APR-2009 01:02:40 AIPS Destroyed 1 extension files of type NX 3 4 10-APR-2009 01:02:40 AIPS Destroyed 1 extension files of type AN 3 4 10-APR-2009 01:02:41 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:41 AIPS Destroyed UV image file: catno= 2 disk= 1 3 2 10-APR-2009 01:02:41 AIPS Got(1) disk= 1 user=**** type=UV 19870714.L BAND.1 3 4 10-APR-2009 01:02:42 AIPS Destroyed 2 extension files of type SN 3 4 10-APR-2009 01:02:43 AIPS Destroyed 1 extension files of type XX 3 4 10-APR-2009 01:02:43 AIPS Destroyed 2 extension files of type FG 3 4 10-APR-2009 01:02:44 AIPS Destroyed 1 extension files of type HI 3 4 10-APR-2009 01:02:44 AIPS Destroyed 1 extension files of type WX 3 4 10-APR-2009 01:02:45 AIPS Destroyed 1 extension files of type TY 3 4 10-APR-2009 01:02:47 AIPS Destroyed 3 extension files of type CL 3 4 10-APR-2009 01:02:47 AIPS Destroyed 1 extension files of type FQ 3 4 10-APR-2009 01:02:47 AIPS Destroyed 1 extension files of type SU 3 4 10-APR-2009 01:02:47 AIPS Destroyed 1 extension files of type NX 3 4 10-APR-2009 01:02:47 AIPS Destroyed 1 extension files of type AN 3 4 10-APR-2009 01:02:48 AIPS Destroyed UV image file: catno= 1 disk= 1 3 0 10-APR-2009 01:02:48 AIPS tget prtmsg;prtmsg;docrt 1 /home/vlbacald-a/vlbacald/run/AG0145_1987JUL14_1.3.run finished on Fri Apr 10 01:02:57 MDT 2009