SIMPLE = T / Standard FITS file BITPIX = 8 / NAXIS = 2 / NAXIS1 = 777777701 / Signature code for UV data in table NAXIS2 = 0 / No data in primary array EXTEND = T / All data in tables BLOCKED = T / Tape may be blocked HISTORY FILLM / Image created by user22109 at 14-OCT-2009 07:26:41 HISTORY FILLM OUTNAME='19840112 ' OUTCLASS='K BAND' HISTORY FILLM OUTSEQ= 1 OUTDISK= 1 HISTORY FILLM NFILE= 0 INFILE='AVIS:AA0099_1984JAN12_1_' HISTORY FILLM BAND = 'K', QUAL = 0, CALC = ' ' HISTORY FILLM VLAMODE =' ' HISTORY FILLM / Control program ID = HISTORY FILLM / VLA conf. = B HISTORY FILLM / correlator mode = HISTORY FILLM / AP options = HISTORY FILLM /TIMERANG = beginning to end HISTORY FILLM BCHAN = 1 ECHAN = 1 / Spectral channels HISTORY FILLM CPARM(1) = 0.000 / Integration (sec) HISTORY FILLM CPARM(3) = 3. / Max. IF stat. to pass HISTORY FILLM CPARM(4) = 0. / .lt. 0 => no shadow flag HISTORY FILLM CPARM(6) = 1. / Subarray HISTORY FILLM CPARM(7) = 0.000 / FQ entry tolerance HISTORY FILLM CPARM(8) = 0.05 / CL table time increment HISTORY FILLM CPARM(9) = 0.00 / TY table time increment HISTORY FILLM Opacity correction in CL table weighted average of weather HISTORY FILLM and season. weight for weather = 0.50 HISTORY FILLM Gain curve correction in CL table read from file: HISTORY FILLM standard system VLA antenna gains file HISTORY FILLM with variation as function of antenna and band HISTORY FILLM / Telescope = VLA Program = AA99 HISTORY FILLM / Weighted with nominal sensitivities HISTORY FILLM / Data not compressed, no loss of weight info HISTORY FILLM RELEASE = '31DEC07' HISTORY RENAM INNAME='19840112 ' INCLASS='K BAND' HISTORY RENAM INSEQ= 1 INDISK= 1 HISTORY RENAM OUTNAME='19840112 ' OUTCLASS='PREFIX' HISTORY RENAM OUTSEQ= 1 OUTDISK= 1 HISTORY UVFIX RELEASE ='31DEC07 ' /********* Start 14-OCT-2009 07:26:41 HISTORY UVFIX INNAME='19840112 ' INCLASS='PREFIX' HISTORY UVFIX INSEQ= 1 INDISK= 1 HISTORY UVFIX OUTNAME='19840112 ' OUTCLASS='K BAND' HISTORY UVFIX OUTSEQ= 1 OUTDISK= 1 HISTORY UVFIX /Array 1 U, V, W computation HISTORY UVFIX /Obs date=19840112 Obs freq= 22.485100 GHz HISTORY UVFIX /Array center BX= -1.601185365000E+06 meters HISTORY UVFIX /Array center BY= -5.041977547000E+06 meters HISTORY UVFIX /Array center BZ= 3.554875870000E+06 meters HISTORY UVFIX /GMST(0)= 7 22 44.748 data-UTC= 22.000 sec UT1-UTC= 0.000 secHISTORY UVFIX /Clock time corrected by 0.000 sec HISTORY UVFIX BEPOCH = 1979.30 / Besselian epoch of obs. HISTORY FLAGR RELEASE ='31DEC07 ' /********* Start 14-OCT-2009 17:05:33 HISTORY FLAGR FLAGVER = 0 / input flag version copied HISTORY FLAGR FLAGOUT = 1 / output flag version written HISTORY FLAGR OPTYPE = 'TIME' / operation type HISTORY FLAGR SOLINT = 23.000 / averaging time in sec HISTORY FLAGR QCLIPCLS= 0.60000 / question excess closure error HISTORY FLAGR MAXBAD(1) = 0.510 / max fract questionable corrs. HISTORY FLAGR MAXBAD(2) = 0.250 / max fract questionable baselines HISTORY FLAGR VECTOR = F / type of amplitude averaging HISTORY FLAGR KILLONES= T / kill or flag singletons HISTORY FLAGR RMSLIM = 0.0000, 0.0000 / min rms allowed in amp and rms HISTORY FLAGR CLIPR(1) = 3.5 / question data > CL(1)*rms from mean HISTORY FLAGR CLIPR(3) = 8.0 / flag amp data > CL(3)*rms from mean HISTORY FLAGR CLIPR(2) = 7.0 / question rms > CL(2)*avgrms above mean HISTORY FLAGR CLIPR(4) = 16.0 / flag rms > CL(1)*avgrms above mean HISTORY FLAGR FLAGD(1) = 0 / integrations fully flagged HISTORY FLAGR FLAGD(2) = 0 / corr/integrations fully flagged HISTORY FLAGR FLAGD(3) = 0 / antennas/integrations flagged HISTORY FLAGR FLAGD(4) = 0 / correlators for all times flagged HISTORY SETJY release ='31DEC07 ' /********* Start 14-OCT-2009 17:05:34 HISTORY SETJY / Resetting flux information to zero HISTORY SETJY BIF = 1 EIF = 2 /Range of IFs HISTORY SETJY SOURCES = '' /All sources selected HISTORY SETJY release ='31DEC07 ' /********* Start 14-OCT-2009 17:05:34 HISTORY SETJY / Flux calculated using known spectrum HISTORY SETJY BIF = 1 EIF = 2 /Range of IFs HISTORY SETJY '3C138 ' IF = 1 FLUX = 1.0375 (Jy calcd) HISTORY SETJY '3C138 ' IF = 2 FLUX = 1.0397 (Jy calcd) HISTORY SETJY / Using (1999.2) VLA or Reynolds (1934-638) coefficients HISTORY CALIB RELEASE ='31DEC07 ' /******* Start 14-OCT-2009 17:05:34 HISTORY CALIB N SOURCES= 1 /Following Sources included: HISTORY CALIB CALSOUR = ' ',' ' HISTORY CALIB QUAL = -1 CALCODE = * HISTORY CALIB FLAGVER = 1 /Flagging table used HISTORY CALIB GAINUSE = 1 /CL table used HISTORY CALIB /TIMERANG = beginning to end HISTORY CALIB SOLINT = 0.33 /Soln. inter. (min) HISTORY CALIB SOLSUB = 1 /Soln. subinterval HISTORY CALIB SOLMIN = 1 /Minimum soln. int. (min) HISTORY CALIB SUBARRAY = 0 REFANT = 0 /Reference Ant. HISTORY CALIB APARM(1) = 3 /Min. no antennas HISTORY CALIB APARM(3) = -1 />0 => avg. RR,LL HISTORY CALIB APARM(5) = -1 />0 => average IFs HISTORY CALIB APARM(7) = 3.5 /SNR cutoff HISTORY CALIB SOLTYPE ='L1R '/Solution type HISTORY CALIB SOLMODE ='P '/Solution mode HISTORY CALIB WEIGHTIT = 0 / fit wts = wt**1.00 HISTORY CALIB CPARM(2) = -1 /1 => Normalize gain HISTORY CALIB CPARM(7) = 2.500 /limit closure displays HISTORY CALIB SNVER = 1 /Output SN table version HISTORY CALIB UVRANGE = 0.000E+00, 1.000E+15 /Min, Max Baseline HISTORY CALIB ANTENNAS = 0 /All antennas selected HISTORY CALIB ANTWT = 1.0 /Weight same for all Ant HISTORY CALIB /Found 188 good solutions HISTORY CALIB /Failed on 4 solutions HISTORY CALIB RELEASE ='31DEC07 ' /******* Start 14-OCT-2009 17:05:35 HISTORY CALIB N SOURCES= 1 /Following Sources included: HISTORY CALIB CALSOUR = '3C138 ',' ' HISTORY CALIB QUAL = -1 CALCODE = C HISTORY CALIB FLAGVER = 1 /Flagging table used HISTORY CALIB GAINUSE = 1 /CL table used HISTORY CALIB /TIMERANG = beginning to end HISTORY CALIB IN2NAME='3C138_K ' IN2CLASS='MODEL ' HISTORY CALIB IN2SEQ= 1 IN2DISK= 1 HISTORY CALIB INVER = 0 /CC file version no. HISTORY CALIB NMAPS = 1 /Number of clean images used HISTORY CALIB NCOMP( 1)= 132 /Number of clean comps. HISTORY CALIB SOLINT = 0.33 /Soln. inter. (min) HISTORY CALIB SOLSUB = 1 /Soln. subinterval HISTORY CALIB SOLMIN = 1 /Minimum soln. int. (min) HISTORY CALIB SUBARRAY = 0 REFANT = 0 /Reference Ant. HISTORY CALIB APARM(1) = 3 /Min. no antennas HISTORY CALIB APARM(3) = -1 />0 => avg. RR,LL HISTORY CALIB APARM(5) = -1 />0 => average IFs HISTORY CALIB APARM(7) = 3.5 /SNR cutoff HISTORY CALIB SOLTYPE ='L1R '/Solution type HISTORY CALIB SOLMODE ='P '/Solution mode HISTORY CALIB WEIGHTIT = 0 / fit wts = wt**1.00 HISTORY CALIB CPARM(2) = -1 /1 => Normalize gain HISTORY CALIB CPARM(7) = 2.500 /limit closure displays HISTORY CALIB SNVER = 1 /Output SN table version HISTORY CALIB UVRANGE = 0.000E+00, 1.000E+15 /Min, Max Baseline HISTORY CALIB ANTENNAS = 0 /All antennas selected HISTORY CALIB ANTWT = 1.0 /Weight same for all Ant HISTORY CALIB /Found 188 good solutions HISTORY CALIB /Failed on 4 solutions HISTORY CLCAL RELEASE ='31DEC07 ' /********* Start 14-OCT-2009 17:05:35 HISTORY CLCAL OPCODE ='CALI' / MERG, CALI or SMOO HISTORY CLCAL SOURCES = '' / All sources selected HISTORY CLCAL SOUCODE =' ' / Source Cal code HISTORY CLCAL / Calibrators included: HISTORY CLCAL CALSOUR = '3C138 ',' ' HISTORY CLCAL QUAL = -1 CALCODE = '* ' HISTORY CLCAL /TIMERANG = beginning to end HISTORY CLCAL SUBARRAY = 0 HISTORY CLCAL ANTENNAS = 0 / All antennas selected HISTORY CLCAL GAINVER = 1, GAINUSE = 2 / CL table HISTORY CLCAL INTERPOL = '2PT ' / Interpolation type HISTORY CLCAL CUTOFF = 0.0 minutes / Interpolation limit HISTORY CLCAL SNVER = 1 1 / SN table versions used HISTORY CLCAL REFANT = 9 / Reference antenna used HISTORY CLCAL RELEASE ='31DEC07 ' /********* Start 14-OCT-2009 17:05:35 HISTORY CLCAL OPCODE ='CALI' / MERG, CALI or SMOO HISTORY CLCAL / Sources included: HISTORY CLCAL SOURCES = '3C138 ',' ' HISTORY CLCAL SOUCODE ='* ' / Source Cal code HISTORY CLCAL / Calibrators included: HISTORY CLCAL CALSOUR = '3C138 ',' ' HISTORY CLCAL QUAL = -1 CALCODE = '* ' HISTORY CLCAL /TIMERANG = beginning to end HISTORY CLCAL SUBARRAY = 0 HISTORY CLCAL ANTENNAS = 0 / All antennas selected HISTORY CLCAL GAINVER = 1, GAINUSE = 2 / CL table HISTORY CLCAL INTERPOL = 'SELF' / Interpolation type HISTORY CLCAL CUTOFF = 0.0 minutes / Interpolation limit HISTORY CLCAL SNVER = 1 1 / SN table versions used HISTORY CLCAL REFANT = 9 / Reference antenna used HISTORY CALIB RELEASE ='31DEC07 ' /******* Start 14-OCT-2009 17:05:35 HISTORY CALIB N SOURCES= 1 /Following Sources included: HISTORY CALIB CALSOUR = ' ',' ' HISTORY CALIB QUAL = -1 CALCODE = * HISTORY CALIB FLAGVER = 1 /Flagging table used HISTORY CALIB GAINUSE = 2 /CL table used HISTORY CALIB /TIMERANG = beginning to end HISTORY CALIB SOLINT = 5.00 /Soln. inter. (min) HISTORY CALIB SOLSUB = 1 /Soln. subinterval HISTORY CALIB SOLMIN = 1 /Minimum soln. int. (min) HISTORY CALIB SUBARRAY = 0 REFANT = 0 /Reference Ant. HISTORY CALIB APARM(1) = 3 /Min. no antennas HISTORY CALIB APARM(3) = -1 />0 => avg. RR,LL HISTORY CALIB APARM(5) = -1 />0 => average IFs HISTORY CALIB APARM(7) = 3.5 /SNR cutoff HISTORY CALIB SOLTYPE ='L1R '/Solution type HISTORY CALIB SOLMODE ='A&P '/Solution mode HISTORY CALIB WEIGHTIT = 0 / fit wts = wt**1.00 HISTORY CALIB CPARM(2) = -1 /1 => Normalize gain HISTORY CALIB CPARM(7) = 2.500 /limit closure displays HISTORY CALIB SNVER = 2 /Output SN table version HISTORY CALIB UVRANGE = 0.000E+00, 1.000E+15 /Min, Max Baseline HISTORY CALIB ANTENNAS = 0 /All antennas selected HISTORY CALIB ANTWT = 1.0 /Weight same for all Ant HISTORY CALIB /Found 94 good solutions HISTORY CALIB /Failed on 2 solutions HISTORY CALIB RELEASE ='31DEC07 ' /******* Start 14-OCT-2009 17:05:36 HISTORY CALIB N SOURCES= 1 /Following Sources included: HISTORY CALIB CALSOUR = '3C138 ',' ' HISTORY CALIB QUAL = -1 CALCODE = HISTORY CALIB FLAGVER = 1 /Flagging table used HISTORY CALIB GAINUSE = 2 /CL table used HISTORY CALIB /TIMERANG = beginning to end HISTORY CALIB IN2NAME='3C138_K ' IN2CLASS='MODEL ' HISTORY CALIB IN2SEQ= 1 IN2DISK= 1 HISTORY CALIB INVER = 0 /CC file version no. HISTORY CALIB NMAPS = 1 /Number of clean images used HISTORY CALIB NCOMP( 1)= 132 /Number of clean comps. HISTORY CALIB SOLINT = 5.00 /Soln. inter. (min) HISTORY CALIB SOLSUB = 1 /Soln. subinterval HISTORY CALIB SOLMIN = 1 /Minimum soln. int. (min) HISTORY CALIB SUBARRAY = 0 REFANT = 0 /Reference Ant. HISTORY CALIB APARM(1) = 3 /Min. no antennas HISTORY CALIB APARM(3) = -1 />0 => avg. RR,LL HISTORY CALIB APARM(5) = -1 />0 => average IFs HISTORY CALIB APARM(7) = 3.5 /SNR cutoff HISTORY CALIB SOLTYPE ='L1R '/Solution type HISTORY CALIB SOLMODE ='A&P '/Solution mode HISTORY CALIB WEIGHTIT = 0 / fit wts = wt**1.00 HISTORY CALIB CPARM(2) = -1 /1 => Normalize gain HISTORY CALIB CPARM(7) = 2.500 /limit closure displays HISTORY CALIB SNVER = 2 /Output SN table version HISTORY CALIB UVRANGE = 0.000E+00, 1.000E+15 /Min, Max Baseline HISTORY CALIB ANTENNAS = 0 /All antennas selected HISTORY CALIB ANTWT = 1.0 /Weight same for all Ant HISTORY CALIB /Found 94 good solutions HISTORY CALIB /Failed on 2 solutions HISTORY GETJY RELEASE ='31DEC07 ' /********* Start 14-OCT-2009 17:05:36 HISTORY GETJY INNAME='19840112 ' INCLASS='K BAND' HISTORY GETJY INSEQ= 1 INDISK= 1 HISTORY GETJY SOURCES = '' /All sources selected HISTORY GETJY SOUCODE ='* ' /Source Cal code HISTORY GETJY /Calibrators included: HISTORY GETJY CALSOUR = '3C138 ',' ' HISTORY GETJY QUAL = 0 CALCODE = HISTORY GETJY BIF = 1, EIF = 2 / IF range HISTORY GETJY /TIMERANG = beginning to end HISTORY GETJY SUBARRAY = 0 HISTORY GETJY ANTENNAS = 0 /All antennas selected HISTORY GETJY SNVER = 2 /SN version, 0=> all HISTORY CLCAL RELEASE ='31DEC07 ' /********* Start 14-OCT-2009 17:05:36 HISTORY CLCAL OPCODE ='CALI' / MERG, CALI or SMOO HISTORY CLCAL SOURCES = '' / All sources selected HISTORY CLCAL SOUCODE =' ' / Source Cal code HISTORY CLCAL / Calibrators included: HISTORY CLCAL CALSOUR = '3C138 ',' ' HISTORY CLCAL QUAL = -1 CALCODE = '* ' HISTORY CLCAL /TIMERANG = beginning to end HISTORY CLCAL SUBARRAY = 0 HISTORY CLCAL ANTENNAS = 0 / All antennas selected HISTORY CLCAL GAINVER = 2, GAINUSE = 3 / CL table HISTORY CLCAL INTERPOL = '2PT ' / Interpolation type HISTORY CLCAL CUTOFF = 0.0 minutes / Interpolation limit HISTORY CLCAL SNVER = 2 2 / SN table versions used HISTORY CLCAL REFANT = 9 / Reference antenna used HISTORY CLCAL RELEASE ='31DEC07 ' /********* Start 14-OCT-2009 17:05:36 HISTORY CLCAL OPCODE ='CALI' / MERG, CALI or SMOO HISTORY CLCAL / Sources included: HISTORY CLCAL SOURCES = '3C138 ',' ' HISTORY CLCAL SOUCODE ='* ' / Source Cal code HISTORY CLCAL / Calibrators included: HISTORY CLCAL CALSOUR = '3C138 ',' ' HISTORY CLCAL QUAL = -1 CALCODE = '* ' HISTORY CLCAL /TIMERANG = beginning to end HISTORY CLCAL SUBARRAY = 0 HISTORY CLCAL ANTENNAS = 0 / All antennas selected HISTORY CLCAL GAINVER = 2, GAINUSE = 3 / CL table HISTORY CLCAL INTERPOL = 'SELF' / Interpolation type HISTORY CLCAL CUTOFF = 0.0 minutes / Interpolation limit HISTORY CLCAL SNVER = 2 2 / SN table versions used HISTORY CLCAL REFANT = 9 / Reference antenna used HISTORY TASAV RELEASE ='31DEC07 ' /********* Start 14-OCT-2009 17:05:36 HISTORY TASAV INNAME='19840112 ' INCLASS='K BAND' HISTORY TASAV INSEQ= 1 INDISK= 1 HISTORY TASAV OUTNAME='19840112 ' OUTCLASS='TASAV ' HISTORY TASAV OUTSEQ= 1 OUTDISK= 1 HISTORY TASAV / I copied all extension tables ORIGIN = 'AIPSvlbacald-b VLA_PIPE 31DEC07' / DATE = '2009-10-14' / File written on Greenwich yyyy-mm-dd HISTORY AIPS IMNAME='19840112 ' IMCLASS='TASAV ' IMSEQ= 1 / HISTORY AIPS USERNO=22109 / COMMENT FITS (Flexible Image Transport System) format is defined in 'AstronomyCOMMENT and Astrophysics', volume 376, page 359; bibcode: 2001A&A...376..359H / Where baseline = 256*ant1 + ant2 + (array#-1)/100 HISTORY AIPS SORT ORDER = 'TB' / Where T means TIME (IAT) / Where B means BASELINE NUM HISTORY AIPS IPIECE= 1 NPIECE= 1 / piece number HISTORY AIPS FIRSTVIS= 1 / first vis # HISTORY AIPS LASTVIS = 1 / last vis # HISTORY AIPS / uv header which will appear with table HISTORY AIPS GCOUNT = 1 HISTORY AIPS PCOUNT = 7 HISTORY AIPS PTYPE1 = 'UU---SIN' HISTORY AIPS PSCAL1 = 4.4473896046895E-11 HISTORY AIPS PTYPE2 = 'VV---SIN' HISTORY AIPS PSCAL2 = 4.4473896046895E-11 HISTORY AIPS PTYPE3 = 'WW---SIN' HISTORY AIPS PSCAL3 = 4.4473896046895E-11 HISTORY AIPS PTYPE4 = 'BASELINE' HISTORY AIPS PTYPE5 = 'DATE ' HISTORY AIPS PZERO5 = 2.4457115000000E+06 HISTORY AIPS PTYPE6 = 'SOURCE ' HISTORY AIPS PTYPE7 = 'FREQSEL ' HISTORY AIPS NAXIS = 6 HISTORY AIPS NAXIS1 = 3 HISTORY AIPS CTYPE1 = 'COMPLEX ' HISTORY AIPS CRVAL1 = 1.0000000000000E+00 HISTORY AIPS CDELT1 = 1.000000000E+00 HISTORY AIPS CRPIX1 = 1.000000000E+00 HISTORY AIPS CROTA1 = 0.000000000E+00 HISTORY AIPS NAXIS2 = 4 HISTORY AIPS CTYPE2 = 'STOKES ' HISTORY AIPS CRVAL2 = -1.0000000000000E+00 HISTORY AIPS CDELT2 = -1.000000000E+00 HISTORY AIPS CRPIX2 = 1.000000000E+00 HISTORY AIPS CROTA2 = 0.000000000E+00 HISTORY AIPS NAXIS3 = 2 HISTORY AIPS CTYPE3 = 'IF ' HISTORY AIPS CRVAL3 = 1.0000000000000E+00 HISTORY AIPS CDELT3 = 1.000000000E+00 HISTORY AIPS CRPIX3 = 1.000000000E+00 HISTORY AIPS CROTA3 = 0.000000000E+00 HISTORY AIPS NAXIS4 = 1 HISTORY AIPS CTYPE4 = 'FREQ ' HISTORY AIPS CRVAL4 = 2.2485099999909E+10 HISTORY AIPS CDELT4 = 5.000000000E+07 HISTORY AIPS CRPIX4 = 1.000000000E+00 HISTORY AIPS CROTA4 = 0.000000000E+00 HISTORY AIPS NAXIS5 = 1 HISTORY AIPS CTYPE5 = 'RA ' HISTORY AIPS CRVAL5 = 0.0000000000000E+00 HISTORY AIPS CDELT5 = 1.000000000E+00 HISTORY AIPS CRPIX5 = 1.000000000E+00 HISTORY AIPS CROTA5 = 0.000000000E+00 HISTORY AIPS NAXIS6 = 1 HISTORY AIPS CTYPE6 = 'DEC ' HISTORY AIPS CRVAL6 = 0.0000000000000E+00 HISTORY AIPS CDELT6 = 1.000000000E+00 HISTORY AIPS CRPIX6 = 1.000000000E+00 HISTORY AIPS CROTA6 = 0.000000000E+00 HISTORY AIPS OBJECT = 'MULTI ' / Source name HISTORY AIPS TELESCOP= 'VLA ' / HISTORY AIPS INSTRUME= 'VLA ' / HISTORY AIPS OBSERVER= 'AA99 ' / HISTORY AIPS DATE-OBS= '1984-01-12' / Obs start date YYYY-MM-DD HISTORY AIPS DATE-MAP= '2009-10-14' / Last processing date YYYY-MM-DD HISTORY AIPS BSCALE = 1.00000000000E+00 / REAL = TAPE * BSCALE + BZERO HISTORY AIPS BZERO = 0.00000000000E+00 / HISTORY AIPS BUNIT = 'UNCALIB ' / Units of flux HISTORY AIPS EPOCH = 2.000000000E+03 / Epoch of RA DEC HISTORY AIPS BLANK = -1 / IEEE not-a-number blanked pixelsHISTORY AIPS ALTRPIX = 1.000000000E+00 / Altenate FREQ/VEL ref pixel HISTORY AIPS DATE-OBS= '1984-01-12' HISTORY AIPS DATE-MAP= '2009-10-14' END XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 86 / Width of table in bytes NAXIS2 = 29 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 12 / Number of fields in each row EXTNAME = 'AIPS AN ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '8A ' / FORTRAN format of field 1 TTYPE1 = 'ANNAME ' / Type (heading) of field 1 TUNIT1 = ' ' / Physical units of field 1 TFORM2 = '3D ' / FORTRAN format of field 2 TTYPE2 = 'STABXYZ ' / Type (heading) of field 2 TUNIT2 = 'METERS ' / Physical units of field 2 TFORM3 = '0D ' / FORTRAN format of field 3 TTYPE3 = 'ORBPARM ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '1J ' / FORTRAN format of field 4 TTYPE4 = 'NOSTA ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1J ' / FORTRAN format of field 5 TTYPE5 = 'MNTSTA ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 TFORM6 = '1E ' / FORTRAN format of field 6 TTYPE6 = 'STAXOF ' / Type (heading) of field 6 TUNIT6 = 'METERS ' / Physical units of field 6 TFORM7 = '1A ' / FORTRAN format of field 7 TTYPE7 = 'POLTYA ' / Type (heading) of field 7 TUNIT7 = ' ' / Physical units of field 7 TFORM8 = '1E ' / FORTRAN format of field 8 TTYPE8 = 'POLAA ' / Type (heading) of field 8 TUNIT8 = 'DEGREES ' / Physical units of field 8 TFORM9 = '4E ' / FORTRAN format of field 9 TTYPE9 = 'POLCALA ' / Type (heading) of field 9 TUNIT9 = ' ' / Physical units of field 9 TFORM10 = '1A ' / FORTRAN format of field 10 TTYPE10 = 'POLTYB ' / Type (heading) of field 10 TUNIT10 = ' ' / physical units of field 10 TFORM11 = '1E ' / FORTRAN format of field 11 TTYPE11 = 'POLAB ' / Type (heading) of field 11 TUNIT11 = 'DEGREES ' / physical units of field 11 TFORM12 = '4E ' / FORTRAN format of field 12 TTYPE12 = 'POLCALB ' / Type (heading) of field 12 TUNIT12 = ' ' / physical units of field 12 ARRAYX = -0.16011853650000000E+07 ARRAYY = -0.50419775470000003E+07 ARRAYZ = 0.35548758700000001E+07 GSTIA0 = 0.11068645066786908E+03 DEGPDY = 0.36098564497181746E+03 FREQ = 0.22485099999909286E+11 RDATE = '1984-01-12' POLARX = 0.00000000000000000E+00 POLARY = 0.00000000000000000E+00 UT1UTC = 0.00000000000000000E+00 DATUTC = 0.22000000000000000E+02 TIMSYS = 'IAT ' ARRNAM = 'VLA ' NUMORB = 0 NOPCAL = 4 FREQID = -1 IATUTC = 0.00000000000000000E+00 END VLA: N28VNtatiS@"oRLVLA: E20@4a@+UNRLVLA: E28@583% &@h:iݲ>XRLVLA: E12@l&O@|"u=';iRLVLA: N20YSi!foߴit@RLVLA: W24@kMU"5J RLVLA: W28@hu5x12X Xk/RLVLA: E36@=@[^"Qi3< RLVLA: W8 @cPΘyY~k RLVLA: E24@'@XSq RLVLA: OUT RLVLA: E8 @\ @@{k G e/"+ RLVLA: W12@s"$w|!Z RLVLA: W36@@P@rX:%.bxwRLVLA: N8 ns͓p1Ce@v|RLVLA: E32@+@}סcȋ@[6/ ӮRLVLA: W16@=>Z imRLVLA: N16 C\_>ׂγ@xs;\RLVLA: N36##dj]z@$DARLVLA: N4 Rei'~ *u@[FRLVLA: N24].p5oﵩ@,lRLVLA: W4 @Gu,X^BPF+oRLVLA: W20@,)3"ep!RLVPT: OUTRLXTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 28 / Width of table in bytes NAXIS2 = 1 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 7 / Number of fields in each row EXTNAME = 'AIPS NX ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1E ' / FORTRAN format of field 1 TTYPE1 = 'TIME ' / Type (heading) of field 1 TUNIT1 = 'DAYS ' / Physical units of field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'TIME INTERVAL ' / Type (heading) of field 2 TUNIT2 = 'DAYS ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'SOURCE ID ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '1J ' / FORTRAN format of field 4 TTYPE4 = 'SUBARRAY ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1J ' / FORTRAN format of field 5 TTYPE5 = 'START VIS ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 TFORM6 = '1J ' / FORTRAN format of field 6 TTYPE6 = 'END VIS ' / Type (heading) of field 6 TUNIT6 = ' ' / Physical units of field 6 TFORM7 = '1J ' / FORTRAN format of field 7 TTYPE7 = 'FREQ ID ' / Type (heading) of field 7 TUNIT7 = ' ' / Physical units of field 7 END > 9dXTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 172 / Width of table in bytes NAXIS2 = 1 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 19 / Number of fields in each row EXTNAME = 'AIPS SU ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1J ' / FORTRAN format of field 1 TTYPE1 = 'ID. NO. ' / Type (heading) of field 1 TUNIT1 = ' ' / Physical units of field 1 TFORM2 = '16A ' / FORTRAN format of field 2 TTYPE2 = 'SOURCE ' / Type (heading) of field 2 TUNIT2 = ' ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'QUAL ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '4A ' / FORTRAN format of field 4 TTYPE4 = 'CALCODE ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '2E ' / FORTRAN format of field 5 TTYPE5 = 'IFLUX ' / Type (heading) of field 5 TUNIT5 = 'JY ' / Physical units of field 5 TFORM6 = '2E ' / FORTRAN format of field 6 TTYPE6 = 'QFLUX ' / Type (heading) of field 6 TUNIT6 = 'JY ' / Physical units of field 6 TFORM7 = '2E ' / FORTRAN format of field 7 TTYPE7 = 'UFLUX ' / Type (heading) of field 7 TUNIT7 = 'JY ' / Physical units of field 7 TFORM8 = '2E ' / FORTRAN format of field 8 TTYPE8 = 'VFLUX ' / Type (heading) of field 8 TUNIT8 = 'JY ' / Physical units of field 8 TFORM9 = '2D ' / FORTRAN format of field 9 TTYPE9 = 'FREQOFF ' / Type (heading) of field 9 TUNIT9 = 'HZ ' / Physical units of field 9 TFORM10 = '1D ' / FORTRAN format of field 10 TTYPE10 = 'BANDWIDTH ' / Type (heading) of field 10 TUNIT10 = 'HZ ' / physical units of field 10 TFORM11 = '1D ' / FORTRAN format of field 11 TTYPE11 = 'RAEPO ' / Type (heading) of field 11 TUNIT11 = 'DEGREES ' / physical units of field 11 TFORM12 = '1D ' / FORTRAN format of field 12 TTYPE12 = 'DECEPO ' / Type (heading) of field 12 TUNIT12 = 'DEGREES ' / physical units of field 12 TFORM13 = '1D ' / FORTRAN format of field 13 TTYPE13 = 'EPOCH ' / Type (heading) of field 13 TUNIT13 = 'YEARS ' / physical units of field 13 TFORM14 = '1D ' / FORTRAN format of field 14 TTYPE14 = 'RAAPP ' / Type (heading) of field 14 TUNIT14 = 'DEGREES ' / physical units of field 14 TFORM15 = '1D ' / FORTRAN format of field 15 TTYPE15 = 'DECAPP ' / Type (heading) of field 15 TUNIT15 = 'DEGREES ' / physical units of field 15 TFORM16 = '2D ' / FORTRAN format of field 16 TTYPE16 = 'LSRVEL ' / Type (heading) of field 16 TUNIT16 = 'M/SEC ' / physical units of field 16 TFORM17 = '2D ' / FORTRAN format of field 17 TTYPE17 = 'RESTFREQ ' / Type (heading) of field 17 TUNIT17 = 'HZ ' / physical units of field 17 TFORM18 = '1D ' / FORTRAN format of field 18 TTYPE18 = 'PMRA ' / Type (heading) of field 18 TUNIT18 = 'DEG/DAY ' / physical units of field 18 TFORM19 = '1D ' / FORTRAN format of field 19 TTYPE19 = 'PMDEC ' / Type (heading) of field 19 TUNIT19 = 'DEG/DAY ' / physical units of field 19 NO_IF = 2 VELTYP = ' ' VELDEF = ' ' FREQID = -1 END 3C138 C ??> Aׄ@T[@0@@@Tb@0/֬XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 44 / Width of table in bytes NAXIS2 = 1 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 5 / Number of fields in each row EXTNAME = 'AIPS FQ ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1J ' / FORTRAN format of field 1 TTYPE1 = 'FRQSEL ' / Type (heading) of field 1 TUNIT1 = ' ' / Physical units of field 1 TFORM2 = '2D ' / FORTRAN format of field 2 TTYPE2 = 'IF FREQ ' / Type (heading) of field 2 TUNIT2 = 'HZ ' / Physical units of field 2 TFORM3 = '2E ' / FORTRAN format of field 3 TTYPE3 = 'CH WIDTH ' / Type (heading) of field 3 TUNIT3 = 'HZ ' / Physical units of field 3 TFORM4 = '2E ' / FORTRAN format of field 4 TTYPE4 = 'TOTAL BANDWIDTH ' / Type (heading) of field 4 TUNIT4 = 'HZ ' / Physical units of field 4 TFORM5 = '2J ' / FORTRAN format of field 5 TTYPE5 = 'SIDEBAND ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 NO_IF = 2 END >(ׄ_]gL> L> L> L> XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 192 / Width of table in bytes NAXIS2 = 125 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 33 / Number of fields in each row EXTNAME = 'AIPS CL ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1D ' / FORTRAN format of field 1 TTYPE1 = 'TIME ' / Type (heading) of field 1 TUNIT1 = 'DAYS ' / Physical units of field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'TIME INTERVAL ' / Type (heading) of field 2 TUNIT2 = 'DAYS ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'SOURCE ID ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '1J ' / FORTRAN format of field 4 TTYPE4 = 'ANTENNA NO. ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1J ' / FORTRAN format of field 5 TTYPE5 = 'SUBARRAY ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 TFORM6 = '1J ' / FORTRAN format of field 6 TTYPE6 = 'FREQ ID ' / Type (heading) of field 6 TUNIT6 = ' ' / Physical units of field 6 TFORM7 = '1E ' / FORTRAN format of field 7 TTYPE7 = 'I.FAR.ROT ' / Type (heading) of field 7 TUNIT7 = 'RAD/M**2' / Physical units of field 7 TFORM8 = '1D ' / FORTRAN format of field 8 TTYPE8 = 'GEODELAY ' / Type (heading) of field 8 TUNIT8 = 'SECONDS ' / Physical units of field 8 TFORM9 = '2E ' / FORTRAN format of field 9 TTYPE9 = 'DOPPOFF ' / Type (heading) of field 9 TUNIT9 = 'HZ ' / Physical units of field 9 TFORM10 = '1E ' / FORTRAN format of field 10 TTYPE10 = 'ATMOS ' / Type (heading) of field 10 TUNIT10 = 'SECONDS ' / physical units of field 10 TFORM11 = '1E ' / FORTRAN format of field 11 TTYPE11 = 'DATMOS ' / Type (heading) of field 11 TUNIT11 = 'SEC/SEC ' / physical units of field 11 TFORM12 = '1E ' / FORTRAN format of field 12 TTYPE12 = 'MBDELAY1 ' / Type (heading) of field 12 TUNIT12 = 'SECONDS ' / physical units of field 12 TFORM13 = '1E ' / FORTRAN format of field 13 TTYPE13 = 'CLOCK 1 ' / Type (heading) of field 13 TUNIT13 = 'SECONDS ' / physical units of field 13 TFORM14 = '1E ' / FORTRAN format of field 14 TTYPE14 = 'DCLOCK 1 ' / Type (heading) of field 14 TUNIT14 = 'SEC/SEC ' / physical units of field 14 TFORM15 = '1E ' / FORTRAN format of field 15 TTYPE15 = 'DISP 1 ' / Type (heading) of field 15 TUNIT15 = 'SECONDS ' / physical units of field 15 TFORM16 = '1E ' / FORTRAN format of field 16 TTYPE16 = 'DDISP 1 ' / Type (heading) of field 16 TUNIT16 = 'SEC/SEC ' / physical units of field 16 TFORM17 = '2E ' / FORTRAN format of field 17 TTYPE17 = 'REAL1 ' / Type (heading) of field 17 TUNIT17 = ' ' / physical units of field 17 TFORM18 = '2E ' / FORTRAN format of field 18 TTYPE18 = 'IMAG1 ' / Type (heading) of field 18 TUNIT18 = ' ' / physical units of field 18 TFORM19 = '2E ' / FORTRAN format of field 19 TTYPE19 = 'RATE 1 ' / Type (heading) of field 19 TUNIT19 = 'SEC/SEC ' / physical units of field 19 TFORM20 = '2E ' / FORTRAN format of field 20 TTYPE20 = 'DELAY 1 ' / Type (heading) of field 20 TUNIT20 = 'SECONDS ' / physical units of field 20 TFORM21 = '2E ' / FORTRAN format of field 21 TTYPE21 = 'WEIGHT 1 ' / Type (heading) of field 21 TUNIT21 = ' ' / physical units of field 21 TFORM22 = '2J ' / FORTRAN format of field 22 TTYPE22 = 'REFANT 1 ' / Type (heading) of field 22 TUNIT22 = ' ' / physical units of field 22 TFORM23 = '1E ' / FORTRAN format of field 23 TTYPE23 = 'MBDELAY2 ' / Type (heading) of field 23 TUNIT23 = 'SECONDS ' / physical units of field 23 TFORM24 = '1E ' / FORTRAN format of field 24 TTYPE24 = 'CLOCK 2 ' / Type (heading) of field 24 TUNIT24 = 'SECONDS ' / physical units of field 24 TFORM25 = '1E ' / FORTRAN format of field 25 TTYPE25 = 'DCLOCK 2 ' / Type (heading) of field 25 TUNIT25 = 'SEC/SEC ' / physical units of field 25 TFORM26 = '1E ' / FORTRAN format of field 26 TTYPE26 = 'DISP 2 ' / Type (heading) of field 26 TUNIT26 = 'SECONDS ' / physical units of field 26 TFORM27 = '1E ' / FORTRAN format of field 27 TTYPE27 = 'DDISP 2 ' / Type (heading) of field 27 TUNIT27 = 'SEC/SEC ' / physical units of field 27 TFORM28 = '2E ' / FORTRAN format of field 28 TTYPE28 = 'REAL2 ' / Type (heading) of field 28 TUNIT28 = ' ' / physical units of field 28 TFORM29 = '2E ' / FORTRAN format of field 29 TTYPE29 = 'IMAG2 ' / Type (heading) of field 29 TUNIT29 = ' ' / physical units of field 29 TFORM30 = '2E ' / FORTRAN format of field 30 TTYPE30 = 'RATE 2 ' / Type (heading) of field 30 TUNIT30 = 'SEC/SEC ' / physical units of field 30 TFORM31 = '2E ' / FORTRAN format of field 31 TTYPE31 = 'DELAY 2 ' / Type (heading) of field 31 TUNIT31 = 'SECONDS ' / physical units of field 31 TFORM32 = '2E ' / FORTRAN format of field 32 TTYPE32 = 'WEIGHT 2 ' / Type (heading) of field 32 TUNIT32 = ' ' / physical units of field 32 TFORM33 = '2J ' / FORTRAN format of field 33 TTYPE33 = 'REFANT 2 ' / Type (heading) of field 33 TUNIT33 = ' ' / physical units of field 33 NO_ANT = 29 NO_POL = 2 NO_IF = 2 NO_TERM = 1 MGMOD = 0.10000000000000000E+01 REVISION= 10 ISORTORD= 4 END ?s8.E>?|ȩ?|ȩ???|ȩ?|ȩ???ww8.E>?|?|???|?|???{B`8.E>?|?|???|?|??? 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@8.E>Gq^I????????? 8.E>Gq^I?????????s8.E>. &֕?U?U???U?U???ww8.E>. &֕?h?h???h?h???{B`8.E>. &֕????????? @8.E>. &֕????????? 8.E>. &֕?????????s8.E>#?????????ww8.E>#?????????{B`8.E>#????????? @8.E>#?=?=???=?=??? 8.E>#?????????s8.E>~C?????????ww8.E>~C?????????{B`8.E>~C????????? @8.E>~C????????? 8.E>~C?5?5???5?5???s8.E>޽e%ɔ?????????ww8.E>޽e%ɔ?3?3???3?3???{B`8.E>޽e%ɔ????????? @8.E>5.9?!?!???!?!??? 8.E>5.9????????XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 192 / Width of table in bytes NAXIS2 = 120 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 33 / Number of fields in each row EXTNAME = 'AIPS CL ' / AIPS table file EXTVER = 2 / Version number of table TFORM1 = '1D ' / FORTRAN format of field 1 TTYPE1 = 'TIME ' / Type (heading) of field 1 TUNIT1 = 'DAYS ' / Physical units of field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'TIME INTERVAL ' / Type (heading) of field 2 TUNIT2 = 'DAYS ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'SOURCE ID ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '1J ' / FORTRAN format of field 4 TTYPE4 = 'ANTENNA NO. ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1J ' / FORTRAN format of field 5 TTYPE5 = 'SUBARRAY ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 TFORM6 = '1J ' / FORTRAN format of field 6 TTYPE6 = 'FREQ ID ' / Type (heading) of field 6 TUNIT6 = ' ' / Physical units of field 6 TFORM7 = '1E ' / FORTRAN format of field 7 TTYPE7 = 'I.FAR.ROT ' / Type (heading) of field 7 TUNIT7 = 'RAD/M**2' / Physical units of field 7 TFORM8 = '1D ' / FORTRAN format of field 8 TTYPE8 = 'GEODELAY ' / Type (heading) of field 8 TUNIT8 = 'SECONDS ' / Physical units of field 8 TFORM9 = '2E ' / FORTRAN format of field 9 TTYPE9 = 'DOPPOFF ' / Type (heading) of field 9 TUNIT9 = 'HZ ' / Physical units of field 9 TFORM10 = '1E ' / FORTRAN format of field 10 TTYPE10 = 'ATMOS ' / Type (heading) of field 10 TUNIT10 = 'SECONDS ' / physical units of field 10 TFORM11 = '1E ' / FORTRAN format of field 11 TTYPE11 = 'DATMOS ' / Type (heading) of field 11 TUNIT11 = 'SEC/SEC ' / physical units of field 11 TFORM12 = '1E ' / FORTRAN format of field 12 TTYPE12 = 'MBDELAY1 ' / Type (heading) of field 12 TUNIT12 = 'SECONDS ' / physical units of field 12 TFORM13 = '1E ' / FORTRAN format of field 13 TTYPE13 = 'CLOCK 1 ' / Type (heading) of field 13 TUNIT13 = 'SECONDS ' / physical units of field 13 TFORM14 = '1E ' / FORTRAN format of field 14 TTYPE14 = 'DCLOCK 1 ' / Type (heading) of field 14 TUNIT14 = 'SEC/SEC ' / physical units of field 14 TFORM15 = '1E ' / FORTRAN format of field 15 TTYPE15 = 'DISP 1 ' / Type (heading) of field 15 TUNIT15 = 'SECONDS ' / physical units of field 15 TFORM16 = '1E ' / FORTRAN format of field 16 TTYPE16 = 'DDISP 1 ' / Type (heading) of field 16 TUNIT16 = 'SEC/SEC ' / physical units of field 16 TFORM17 = '2E ' / FORTRAN format of field 17 TTYPE17 = 'REAL1 ' / Type (heading) of field 17 TUNIT17 = ' ' / physical units of field 17 TFORM18 = '2E ' / FORTRAN format of field 18 TTYPE18 = 'IMAG1 ' / Type (heading) of field 18 TUNIT18 = ' ' / physical units of field 18 TFORM19 = '2E ' / FORTRAN format of field 19 TTYPE19 = 'RATE 1 ' / Type (heading) of field 19 TUNIT19 = 'SEC/SEC ' / physical units of field 19 TFORM20 = '2E ' / FORTRAN format of field 20 TTYPE20 = 'DELAY 1 ' / Type (heading) of field 20 TUNIT20 = 'SECONDS ' / physical units of field 20 TFORM21 = '2E ' / FORTRAN format of field 21 TTYPE21 = 'WEIGHT 1 ' / Type (heading) of field 21 TUNIT21 = ' ' / physical units of field 21 TFORM22 = '2J ' / FORTRAN format of field 22 TTYPE22 = 'REFANT 1 ' / Type (heading) of field 22 TUNIT22 = ' ' / physical units of field 22 TFORM23 = '1E ' / FORTRAN format of field 23 TTYPE23 = 'MBDELAY2 ' / Type (heading) of field 23 TUNIT23 = 'SECONDS ' / physical units of field 23 TFORM24 = '1E ' / FORTRAN format of field 24 TTYPE24 = 'CLOCK 2 ' / Type (heading) of field 24 TUNIT24 = 'SECONDS ' / physical units of field 24 TFORM25 = '1E ' / FORTRAN format of field 25 TTYPE25 = 'DCLOCK 2 ' / Type (heading) of field 25 TUNIT25 = 'SEC/SEC ' / physical units of field 25 TFORM26 = '1E ' / FORTRAN format of field 26 TTYPE26 = 'DISP 2 ' / Type (heading) of field 26 TUNIT26 = 'SECONDS ' / physical units of field 26 TFORM27 = '1E ' / FORTRAN format of field 27 TTYPE27 = 'DDISP 2 ' / Type (heading) of field 27 TUNIT27 = 'SEC/SEC ' / physical units of field 27 TFORM28 = '2E ' / FORTRAN format of field 28 TTYPE28 = 'REAL2 ' / Type (heading) of field 28 TUNIT28 = ' ' / physical units of field 28 TFORM29 = '2E ' / FORTRAN format of field 29 TTYPE29 = 'IMAG2 ' / Type (heading) of field 29 TUNIT29 = ' ' / physical units of field 29 TFORM30 = '2E ' / FORTRAN format of field 30 TTYPE30 = 'RATE 2 ' / Type (heading) of field 30 TUNIT30 = 'SEC/SEC ' / physical units of field 30 TFORM31 = '2E ' / FORTRAN format of field 31 TTYPE31 = 'DELAY 2 ' / Type (heading) of field 31 TUNIT31 = 'SECONDS ' / physical units of field 31 TFORM32 = '2E ' / FORTRAN format of field 32 TTYPE32 = 'WEIGHT 2 ' / Type (heading) of field 32 TUNIT32 = ' ' / physical units of field 32 TFORM33 = '2J ' / FORTRAN format of field 33 TTYPE33 = 'REFANT 2 ' / Type (heading) of field 33 TUNIT33 = ' ' / physical units of field 33 NO_ANT = 29 NO_POL = 2 NO_IF = 2 NO_TERM = 1 MGMOD = 0.10000000000000000E+01 REVISION= 10 ISORTORD= 4 END ?s8.E>La>eX߿m?BCAe >g-?|a4?v=dADAV ?ww8.E>Z>~GtBAtI >1?|?q"HwAًA ?{B`8.E>f>)JyĈBAˑ >q?w`w?j}OAjA* ? 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LAA- XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 192 / Width of table in bytes NAXIS2 = 120 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 33 / Number of fields in each row EXTNAME = 'AIPS CL ' / AIPS table file EXTVER = 3 / Version number of table TFORM1 = '1D ' / FORTRAN format of field 1 TTYPE1 = 'TIME ' / Type (heading) of field 1 TUNIT1 = 'DAYS ' / Physical units of field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'TIME INTERVAL ' / Type (heading) of field 2 TUNIT2 = 'DAYS ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'SOURCE ID ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '1J ' / FORTRAN format of field 4 TTYPE4 = 'ANTENNA NO. ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1J ' / FORTRAN format of field 5 TTYPE5 = 'SUBARRAY ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 TFORM6 = '1J ' / FORTRAN format of field 6 TTYPE6 = 'FREQ ID ' / Type (heading) of field 6 TUNIT6 = ' ' / Physical units of field 6 TFORM7 = '1E ' / FORTRAN format of field 7 TTYPE7 = 'I.FAR.ROT ' / Type (heading) of field 7 TUNIT7 = 'RAD/M**2' / Physical units of field 7 TFORM8 = '1D ' / FORTRAN format of field 8 TTYPE8 = 'GEODELAY ' / Type (heading) of field 8 TUNIT8 = 'SECONDS ' / Physical units of field 8 TFORM9 = '2E ' / FORTRAN format of field 9 TTYPE9 = 'DOPPOFF ' / Type (heading) of field 9 TUNIT9 = 'HZ ' / Physical units of field 9 TFORM10 = '1E ' / FORTRAN format of field 10 TTYPE10 = 'ATMOS ' / Type (heading) of field 10 TUNIT10 = 'SECONDS ' / physical units of field 10 TFORM11 = '1E ' / FORTRAN format of field 11 TTYPE11 = 'DATMOS ' / Type (heading) of field 11 TUNIT11 = 'SEC/SEC ' / physical units of field 11 TFORM12 = '1E ' / FORTRAN format of field 12 TTYPE12 = 'MBDELAY1 ' / Type (heading) of field 12 TUNIT12 = 'SECONDS ' / physical units of field 12 TFORM13 = '1E ' / FORTRAN format of field 13 TTYPE13 = 'CLOCK 1 ' / Type (heading) of field 13 TUNIT13 = 'SECONDS ' / physical units of field 13 TFORM14 = '1E ' / FORTRAN format of field 14 TTYPE14 = 'DCLOCK 1 ' / Type (heading) of field 14 TUNIT14 = 'SEC/SEC ' / physical units of field 14 TFORM15 = '1E ' / FORTRAN format of field 15 TTYPE15 = 'DISP 1 ' / Type (heading) of field 15 TUNIT15 = 'SECONDS ' / physical units of field 15 TFORM16 = '1E ' / FORTRAN format of field 16 TTYPE16 = 'DDISP 1 ' / Type (heading) of field 16 TUNIT16 = 'SEC/SEC ' / physical units of field 16 TFORM17 = '2E ' / FORTRAN format of field 17 TTYPE17 = 'REAL1 ' / Type (heading) of field 17 TUNIT17 = ' ' / physical units of field 17 TFORM18 = '2E ' / FORTRAN format of field 18 TTYPE18 = 'IMAG1 ' / Type (heading) of field 18 TUNIT18 = ' ' / physical units of field 18 TFORM19 = '2E ' / FORTRAN format of field 19 TTYPE19 = 'RATE 1 ' / Type (heading) of field 19 TUNIT19 = 'SEC/SEC ' / physical units of field 19 TFORM20 = '2E ' / FORTRAN format of field 20 TTYPE20 = 'DELAY 1 ' / Type (heading) of field 20 TUNIT20 = 'SECONDS ' / physical units of field 20 TFORM21 = '2E ' / FORTRAN format of field 21 TTYPE21 = 'WEIGHT 1 ' / Type (heading) of field 21 TUNIT21 = ' ' / physical units of field 21 TFORM22 = '2J ' / FORTRAN format of field 22 TTYPE22 = 'REFANT 1 ' / Type (heading) of field 22 TUNIT22 = ' ' / physical units of field 22 TFORM23 = '1E ' / FORTRAN format of field 23 TTYPE23 = 'MBDELAY2 ' / Type (heading) of field 23 TUNIT23 = 'SECONDS ' / physical units of field 23 TFORM24 = '1E ' / FORTRAN format of field 24 TTYPE24 = 'CLOCK 2 ' / Type (heading) of field 24 TUNIT24 = 'SECONDS ' / physical units of field 24 TFORM25 = '1E ' / FORTRAN format of field 25 TTYPE25 = 'DCLOCK 2 ' / Type (heading) of field 25 TUNIT25 = 'SEC/SEC ' / physical units of field 25 TFORM26 = '1E ' / FORTRAN format of field 26 TTYPE26 = 'DISP 2 ' / Type (heading) of field 26 TUNIT26 = 'SECONDS ' / physical units of field 26 TFORM27 = '1E ' / FORTRAN format of field 27 TTYPE27 = 'DDISP 2 ' / Type (heading) of field 27 TUNIT27 = 'SEC/SEC ' / physical units of field 27 TFORM28 = '2E ' / FORTRAN format of field 28 TTYPE28 = 'REAL2 ' / Type (heading) of field 28 TUNIT28 = ' ' / physical units of field 28 TFORM29 = '2E ' / FORTRAN format of field 29 TTYPE29 = 'IMAG2 ' / Type (heading) of field 29 TUNIT29 = ' ' / physical units of field 29 TFORM30 = '2E ' / FORTRAN format of field 30 TTYPE30 = 'RATE 2 ' / Type (heading) of field 30 TUNIT30 = 'SEC/SEC ' / physical units of field 30 TFORM31 = '2E ' / FORTRAN format of field 31 TTYPE31 = 'DELAY 2 ' / Type (heading) of field 31 TUNIT31 = 'SECONDS ' / physical units of field 31 TFORM32 = '2E ' / FORTRAN format of field 32 TTYPE32 = 'WEIGHT 2 ' / Type (heading) of field 32 TUNIT32 = ' ' / physical units of field 32 TFORM33 = '2J ' / FORTRAN format of field 33 TTYPE33 = 'REFANT 2 ' / Type (heading) of field 33 TUNIT33 = ' ' / physical units of field 33 NO_ANT = 29 NO_POL = 2 NO_IF = 2 NO_TERM = 1 MGMOD = 0.10000000000000000E+01 REVISION= 10 ISORTORD= 1 END ?s8.E>#@{+ꋯA֜A+ ?֤@ԍ@>AA\ ?s8.EФGS@6 mBB @#\@"@lB AM ?s8.Eݩ}@ʷ@) ]A6A/ @?&v)d|ͲBA ?s8.E>=At@Un?AAl @V@AealTAB ? 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' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1J ' / FORTRAN format of field 5 TTYPE5 = 'SUBARRAY ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 TFORM6 = '1J ' / FORTRAN format of field 6 TTYPE6 = 'FREQ ID ' / Type (heading) of field 6 TUNIT6 = ' ' / Physical units of field 6 TFORM7 = '2E ' / FORTRAN format of field 7 TTYPE7 = 'TSYS 1 ' / Type (heading) of field 7 TUNIT7 = 'KELVINS ' / Physical units of field 7 TFORM8 = '2E ' / FORTRAN format of field 8 TTYPE8 = 'TANT 1 ' / Type (heading) of field 8 TUNIT8 = 'KELVINS ' / Physical units of field 8 TFORM9 = '2E ' / FORTRAN format of field 9 TTYPE9 = 'TSYS 2 ' / Type (heading) of field 9 TUNIT9 = 'KELVINS ' / Physical units of field 9 TFORM10 = '2E ' / FORTRAN format of field 10 TTYPE10 = 'TANT 2 ' / Type (heading) of field 10 TUNIT10 = 'KELVINS ' / physical units of field 10 NO_POL = 2 NO_IF = 2 REVISION= 10 END > e8.E>>?>@> e8.E????> e8.E>? ??`> e8.E??%?-?> e8.E??>`>> e8.E?? ?G?S> e8.E>>> >> e8.E>?? ?> e8.E >`>>>> e8.E ??@?> e8.E ?%?<@A^A#> e8.E ?q???> e8.E?w?g ?{?> e8.E????]> e8.E????`> e8.E@ ?@?`?> e8.E?`???@> e8.E????> e8.E?u?|`?.?> e8.E?d?b?u ?> e8.E?? ?p? > e8.E?n?f?a`?U> e8.E>> >>> e8.E? ??`? > e8.E?>@?c?@> 8.E>>?`>@> 8.E????> 8.E> ? ?@?@> 8.E??$?-?> 8.E?? >>> 8.E??@?G?S@> 8.E>> > >> 8.E?`???> 8.E >>>> > 8.E ??@?@> 8.E ?%?<A[ A@> 8.E ?p???݀> 8.E?y@?i?{?@> 8.E?? ??\> 8.E????> 8.E@???> 8.E??`?@?> 8.E?? ??> 8.E?t?|?. ?`> 8.E?e?a?u ?@> 8.E??@?p ?> 8.E?n?g?`?V`> 8.E> >>>> 8.E???? `> 8.E?`>?c?@@> 8.E>>?@>`> 8.E??@? ?> 8.E>???> 8.E?@?$?-?@> 8.E??>`>> 8.E???H?R> 8.E>`>`>@>@> 8.E>???> 8.E >>>>~> 8.E ?Ѐ?݀@?> 8.E ?%?< AUA `> 8.E ?q?`?@? > 8.E?z@?h?z@?> 8.E?`???] > 8.E? ???> 8.E@`???`> 8.E? ?@? ?> 8.E? ???€> 8.E?s?|?-`?`> 8.E?d@?a?t`?> 8.E??`?p?> 8.E?m?g?a?U> 8.E> >>>> 8.E? ?@?@? `> 8.E?>?c?@> j8.E>>? >> j8.E?`???> j8.E>??`?`> j8.E?`?$?-?@> j8.E??>`>`> j8.E???G`?R> j8.E>>> >> j8.E>`? ?@?> j8.E >>`>`> > j8.E ?@?@@? > j8.E ?%?<@AeA`> j8.E ?r@??Š?@> j8.E?z ?i ?{ ?`> j8.E?? ? ?]@> j8.E? ???> j8.E@??@?> j8.E?? ??> j8.E? ?@??> j8.E?t`?}@?-?`> j8.E?c?a?t?> j8.E??@?q@?> j8.E?m@?g?b?V> j8.E> >`>>> j8.E?@?@?`? > j8.E?>`?d@?@@> 8.E>>?>> 8.E??`??> 8.E>??? > 8.E?@?$?-`?`> 8.E??>`> > 8.E?`??F?R> 8.E>>@>>> 8.E>`?`?? > 8.E >>>>@> 8.E ?Ҡ? @ ?> 8.E ?&?<@AbA > 8.E ?q??`?ݠ> 8.E?z?j?z ?> 8.E?`???]@> 8.E?@??`?> 8.E@?`? ?@> 8.E?@? ?@? > 8.E?@???@> 8.E?t?}?-?@> 8.E?d?a?t?> 8.E?@?ɠ?q?@> 8.E?m?g?b@?U> 8.E>>>>> 8.E?`??? @> 8.E?> ?c?@ XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 48 / Width of table in bytes NAXIS2 = 5 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 11 / Number of fields in each row EXTNAME = 'AIPS WX ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1D ' / FORTRAN format of field 1 TTYPE1 = 'TIME ' / Type (heading) of field 1 TUNIT1 = 'DAYS ' / Physical units of field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'TIME_INTERVAL ' / Type (heading) of field 2 TUNIT2 = 'DAYS ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'ANTENNA_NO ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '1J ' / FORTRAN format of field 4 TTYPE4 = 'SUBARRAY ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1E ' / FORTRAN format of field 5 TTYPE5 = 'TEMPERATURE ' / Type (heading) of field 5 TUNIT5 = 'CENTIGRA' / Physical units of field 5 TFORM6 = '1E ' / FORTRAN format of field 6 TTYPE6 = 'PRESSURE ' / Type (heading) of field 6 TUNIT6 = 'MILLIBAR' / Physical units of field 6 TFORM7 = '1E ' / FORTRAN format of field 7 TTYPE7 = 'DEWPOINT ' / Type (heading) of field 7 TUNIT7 = 'CENTIGRA' / Physical units of field 7 TFORM8 = '1E ' / FORTRAN format of field 8 TTYPE8 = 'WIND_VELOCITY ' / Type (heading) of field 8 TUNIT8 = 'M/SEC ' / Physical units of field 8 TFORM9 = '1E ' / FORTRAN format of field 9 TTYPE9 = 'WIND_DIRECTION ' / Type (heading) of field 9 TUNIT9 = 'DEGREES ' / Physical units of field 9 TFORM10 = '1E ' / FORTRAN format of field 10 TTYPE10 = 'WVR_H2O ' / Type (heading) of field 10 TUNIT10 = ' ' / physical units of field 10 TFORM11 = '1E ' / FORTRAN format of field 11 TTYPE11 = 'IONOS_ELECTRON ' / Type (heading) of field 11 TUNIT11 = ' ' / physical units of field 11 OBSCODE = 'AA99 ' RDATE = '1984-01-12' TABREV = 3 END ?sW;8.E330DD@C?wwwwwx8.E330DD@yC?{B^З8.E330DD@C? F)8.E330DD@C?-.8.ELDD@fdCXTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 69 / Width of table in bytes NAXIS2 = 0 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 9 / Number of fields in each row EXTNAME = 'AIPS FG ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1J ' / FORTRAN format of field 1 TTYPE1 = 'SOURCE ' / Type (heading) of field 1 TUNIT1 = ' ' / Physical units of field 1 TFORM2 = '1J ' / FORTRAN format of field 2 TTYPE2 = 'SUBARRAY ' / Type (heading) of field 2 TUNIT2 = ' ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'FREQ ID ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '2J ' / FORTRAN format of field 4 TTYPE4 = 'ANTS ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '2E ' / FORTRAN format of field 5 TTYPE5 = 'TIME RANGE ' / Type (heading) of field 5 TUNIT5 = 'DAYS ' / Physical units of field 5 TFORM6 = '2J ' / FORTRAN format of field 6 TTYPE6 = 'IFS ' / Type (heading) of field 6 TUNIT6 = ' ' / Physical units of field 6 TFORM7 = '2J ' / FORTRAN format of field 7 TTYPE7 = 'CHANS ' / Type (heading) of field 7 TUNIT7 = ' ' / Physical units of field 7 TFORM8 = '4X ' / FORTRAN format of field 8 TTYPE8 = 'PFLAGS ' / Type (heading) of field 8 TUNIT8 = ' ' / Physical units of field 8 TFORM9 = '24A ' / FORTRAN format of field 9 TTYPE9 = 'REASON ' / Type (heading) of field 9 TUNIT9 = ' ' / Physical units of field 9 END XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 3724 / Width of table in bytes NAXIS2 = 2 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 7 / Number of fields in each row EXTNAME = 'AIPS XX ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1E ' / FORTRAN format of field 1 TTYPE1 = 'TIME1 ' / Type (heading) of field 1 TUNIT1 = 'DAYS ' / Physical units of field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'TIME2 ' / Type (heading) of field 2 TUNIT2 = 'DAYS ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'SOURCE ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '232E ' / FORTRAN format of field 4 TTYPE4 = 'AMPLITUDE ' / Type (heading) of field 4 TUNIT4 = 'Jy ' / Physical units of field 4 TFORM5 = '232E ' / FORTRAN format of field 5 TTYPE5 = 'RMS ' / Type (heading) of field 5 TUNIT5 = 'Jy ' / Physical units of field 5 TFORM6 = '232E ' / FORTRAN format of field 6 TTYPE6 = 'WEIGHT ' / Type (heading) of field 6 TUNIT6 = '1/Jy**2 ' / Physical units of field 6 TFORM7 = '232E ' / FORTRAN format of field 7 TTYPE7 = 'CLOSURE ' / Type (heading) of field 7 TUNIT7 = ' ' / Physical units of field 7 END > d> y=2L<=%=/=mF=)J='^EunEYEvvDE"E,E3EEE?FEQuFYJFEVbFoGkc1FFVoFeKG DX^DyvEDEeEOdECE'E H(F)pGEzEmE!GFbEFWEX FGSEF=FG$GkqD1D5EE E*EWEE޼FeEr/EUE]GFRF ?=2C?>=C>>?>z?>^=2C>=2C>=2C?=2C?=2C=2C?=2C=2C=C>>?>C?>=C=C=2C=2C??=:.=:.??>:.=:.=.=.> ?=:.?> =:.=.=:.????=:.> >?> ?=:.=:.=.?> j> <=3< <<4;<^5<]=D== W<'=)=$ܟ=Sp)=4=Cs;~< ;ϧ;;;;4;;B<;];T<;|]; h;;+M{;;;4f;[;f< <;<q<*)<Ic;vu;)<I;r#;[6;j;@;(;u;6;.;첵;;{;VUc<`<]I;;<5<;;>;0;;;;D;)>; ";;Y;;4;];;#;l<+$^=2C?>2C?=C>=2C=2C??=2C=2C?=2C>2C=2C>^?>2C?>2C>>^>2C?=:.?=:.>:.??>:.=.> =.?>h/?>=:.=.=.=:.=:.=:.??=:.=:.>:.??=:.=.> ?>h/?>=:.=.=.?XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 140 / Width of table in bytes NAXIS2 = 48 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 22 / Number of fields in each row EXTNAME = 'AIPS SN ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1D ' / FORTRAN format of field 1 TTYPE1 = 'TIME ' / Type (heading) of field 1 TUNIT1 = 'DAYS ' / Physical units of field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'TIME INTERVAL ' / Type (heading) of field 2 TUNIT2 = 'DAYS ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'SOURCE ID ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '1J ' / FORTRAN format of field 4 TTYPE4 = 'ANTENNA NO. ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1J ' / FORTRAN format of field 5 TTYPE5 = 'SUBARRAY ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 TFORM6 = '1J ' / FORTRAN format of field 6 TTYPE6 = 'FREQ ID ' / Type (heading) of field 6 TUNIT6 = ' ' / Physical units of field 6 TFORM7 = '1E ' / FORTRAN format of field 7 TTYPE7 = 'I.FAR.ROT ' / Type (heading) of field 7 TUNIT7 = 'RAD/M**2' / Physical units of field 7 TFORM8 = '1J ' / FORTRAN format of field 8 TTYPE8 = 'NODE NO. ' / Type (heading) of field 8 TUNIT8 = ' ' / Physical units of field 8 TFORM9 = '1E ' / FORTRAN format of field 9 TTYPE9 = 'MBDELAY1 ' / Type (heading) of field 9 TUNIT9 = 'SECONDS ' / Physical units of field 9 TFORM10 = '2E ' / FORTRAN format of field 10 TTYPE10 = 'REAL1 ' / Type (heading) of field 10 TUNIT10 = ' ' / physical units of field 10 TFORM11 = '2E ' / FORTRAN format of field 11 TTYPE11 = 'IMAG1 ' / Type (heading) of field 11 TUNIT11 = ' ' / physical units of field 11 TFORM12 = '2E ' / FORTRAN format of field 12 TTYPE12 = 'DELAY 1 ' / Type (heading) of field 12 TUNIT12 = 'SECONDS ' / physical units of field 12 TFORM13 = '2E ' / FORTRAN format of field 13 TTYPE13 = 'RATE 1 ' / Type (heading) of field 13 TUNIT13 = 'SEC/SEC ' / physical units of field 13 TFORM14 = '2E ' / FORTRAN format of field 14 TTYPE14 = 'WEIGHT 1 ' / Type (heading) of field 14 TUNIT14 = ' ' / physical units of field 14 TFORM15 = '2J ' / FORTRAN format of field 15 TTYPE15 = 'REFANT 1 ' / Type (heading) of field 15 TUNIT15 = ' ' / physical units of field 15 TFORM16 = '1E ' / FORTRAN format of field 16 TTYPE16 = 'MBDELAY2 ' / Type (heading) of field 16 TUNIT16 = 'SECONDS ' / physical units of field 16 TFORM17 = '2E ' / FORTRAN format of field 17 TTYPE17 = 'REAL2 ' / Type (heading) of field 17 TUNIT17 = ' ' / physical units of field 17 TFORM18 = '2E ' / FORTRAN format of field 18 TTYPE18 = 'IMAG2 ' / Type (heading) of field 18 TUNIT18 = ' ' / physical units of field 18 TFORM19 = '2E ' / FORTRAN format of field 19 TTYPE19 = 'DELAY 2 ' / Type (heading) of field 19 TUNIT19 = 'SECONDS ' / physical units of field 19 TFORM20 = '2E ' / FORTRAN format of field 20 TTYPE20 = 'RATE 2 ' / Type (heading) of field 20 TUNIT20 = 'SEC/SEC ' / physical units of field 20 TFORM21 = '2E ' / FORTRAN format of field 21 TTYPE21 = 'WEIGHT 2 ' / Type (heading) of field 21 TUNIT21 = ' ' / physical units of field 21 TFORM22 = '2J ' / FORTRAN format of field 22 TTYPE22 = 'REFANT 2 ' / Type (heading) of field 22 TUNIT22 = ' ' / physical units of field 22 NO_ANT = 29 NO_POL = 2 NO_IF = 2 NO_NODES= 0 MGMOD = 0.10000000000000000E+01 APPLIED = T REVISION= 10 ORIGIN = 0 ISORTORD= 1 END ?u8V>ǿ ɿtLBCAe >k??v|PADAV ?u8N~u?zsPAqA ?|=-3?R?A3A/ ?u8?NX[rI?QAA, ?cC=IeAA ?u8?SW wfvgAQAr >Y?aF?gh2AivB( ?u8]?'?AB>Ar >Hj?2a?{ 7YAVAo ?u8>j?v t>xAt<"Aq fȾ+>ܳbdnAY"lAz ?u8=V7?j?P>sAlA ̥?u9je>A޷OA3 ?u8 ??2rBA7 ??A0B ?u8 +?$jɽQ"AKAR 7%˕~|KA/A ?u8 ?gm ?}f \AB ?u8 d'}Xl>ANA ˾w]r6xhAbAo ?u8~Z.VzA5iAy ~0=˜~@AA ?u8>UG?+2U? <'A%ZA] < 33 67A sB ?u8To??x<A-A*. ?B?{vNI8[?0AEAܠ ?u8q?tx6>AA `i?i'YcjA)B; ?u8?6q;4F?3?AB'2i >@?w<1$BEFBdU ?u8>p(_?x=TPAk Aݯ >1Uп|!ɿAB | ?u8?B>AO%{}`A!AOy |3?>/3YRAJA5 ?u8^??y>?PB2Az KXÿغArAΟ ?u8?zI~b?_gABx% '?j w0>*RAfA9 ?u8?pO4}Ғ~F Ad]Ah ?owJ7>?nrA`A ?u8_Nþi+[w?lj A A ?VA? vhAeRA ?u8>=Zp~AA 4?b|RkAs\A ? @9rs=_g'AAѮ >O?qm?f EAAc. ? @9r?k4?RsxBkxB ?|b?@>"?(3}BAx ? @9r?nP{>=9AfAṹ ?DάY#Bz.CAAO ? @9r>¿`H`>%ASBw ?I6k??E5SBvAM$ ? @9rnZR?izYHAgAo# ?M> ?TX}KASAt. ? @9r?}}7b$AUO/Ao !FM??F9! AAKf ? @9r>2?|U?uWu>,ZAA ?Pc4yVAAA ? @9r ??1j:B(iB ??A*nB<@ ? @9r L?_춿x$AһTBa ;9ܿV.A{A ? @9r ?0{4?gXO9rG;A舞AD ? @9r ~[b!睻>lA A,- ԿӿXYDZ AAi ? @9ro@">MAA vľ>ӿtQAYA ? @9r=PTX??tAqAF NQP=DA٥AQ ? @9r/3r>pc 6A4B ? @9r??: = u?/ۆB6PA !?1lsU 8B(\BV ? @9r?@J?(k|?B&AF />n]ǿKAU A ? @9rǿHnǿ~oAAAfq cFE?pܿjApA ? @9r>w?aq?xoL>vANBG xǾu\bKB%ūAެM ? @9r?Yx~ =;mBA y>l ޿gnAPB4 ? @9r ??N[AhB V?fou>AA{ ? @9r>0j)=qD4> BuAD ?t4>^"?vU\A%B ? @9r<*߿-e?`AJAٰe ?0໿?9A PB ` ? @9rg?,+׿u=tbAjjAhH >r4?v>{ AA- XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 140 / Width of table in bytes NAXIS2 = 24 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 22 / Number of fields in each row EXTNAME = 'AIPS SN ' / AIPS table file EXTVER = 2 / Version number of table TFORM1 = '1D ' / FORTRAN format of field 1 TTYPE1 = 'TIME ' / Type (heading) of field 1 TUNIT1 = 'DAYS ' / Physical units of field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'TIME INTERVAL ' / Type (heading) of field 2 TUNIT2 = 'DAYS ' / Physical units of field 2 TFORM3 = '1J ' / FORTRAN format of field 3 TTYPE3 = 'SOURCE ID ' / Type (heading) of field 3 TUNIT3 = ' ' / Physical units of field 3 TFORM4 = '1J ' / FORTRAN format of field 4 TTYPE4 = 'ANTENNA NO. ' / Type (heading) of field 4 TUNIT4 = ' ' / Physical units of field 4 TFORM5 = '1J ' / FORTRAN format of field 5 TTYPE5 = 'SUBARRAY ' / Type (heading) of field 5 TUNIT5 = ' ' / Physical units of field 5 TFORM6 = '1J ' / FORTRAN format of field 6 TTYPE6 = 'FREQ ID ' / Type (heading) of field 6 TUNIT6 = ' ' / Physical units of field 6 TFORM7 = '1E ' / FORTRAN format of field 7 TTYPE7 = 'I.FAR.ROT ' / Type (heading) of field 7 TUNIT7 = 'RAD/M**2' / Physical units of field 7 TFORM8 = '1J ' / FORTRAN format of field 8 TTYPE8 = 'NODE NO. ' / Type (heading) of field 8 TUNIT8 = ' ' / Physical units of field 8 TFORM9 = '1E ' / FORTRAN format of field 9 TTYPE9 = 'MBDELAY1 ' / Type (heading) of field 9 TUNIT9 = 'SECONDS ' / Physical units of field 9 TFORM10 = '2E ' / FORTRAN format of field 10 TTYPE10 = 'REAL1 ' / Type (heading) of field 10 TUNIT10 = ' ' / physical units of field 10 TFORM11 = '2E ' / FORTRAN format of field 11 TTYPE11 = 'IMAG1 ' / Type (heading) of field 11 TUNIT11 = ' ' / physical units of field 11 TFORM12 = '2E ' / FORTRAN format of field 12 TTYPE12 = 'DELAY 1 ' / Type (heading) of field 12 TUNIT12 = 'SECONDS ' / physical units of field 12 TFORM13 = '2E ' / FORTRAN format of field 13 TTYPE13 = 'RATE 1 ' / Type (heading) of field 13 TUNIT13 = 'SEC/SEC ' / physical units of field 13 TFORM14 = '2E ' / FORTRAN format of field 14 TTYPE14 = 'WEIGHT 1 ' / Type (heading) of field 14 TUNIT14 = ' ' / physical units of field 14 TFORM15 = '2J ' / FORTRAN format of field 15 TTYPE15 = 'REFANT 1 ' / Type (heading) of field 15 TUNIT15 = ' ' / physical units of field 15 TFORM16 = '1E ' / FORTRAN format of field 16 TTYPE16 = 'MBDELAY2 ' / Type (heading) of field 16 TUNIT16 = 'SECONDS ' / physical units of field 16 TFORM17 = '2E ' / FORTRAN format of field 17 TTYPE17 = 'REAL2 ' / Type (heading) of field 17 TUNIT17 = ' ' / physical units of field 17 TFORM18 = '2E ' / FORTRAN format of field 18 TTYPE18 = 'IMAG2 ' / Type (heading) of field 18 TUNIT18 = ' ' / physical units of field 18 TFORM19 = '2E ' / FORTRAN format of field 19 TTYPE19 = 'DELAY 2 ' / Type (heading) of field 19 TUNIT19 = 'SECONDS ' / physical units of field 19 TFORM20 = '2E ' / FORTRAN format of field 20 TTYPE20 = 'RATE 2 ' / Type (heading) of field 20 TUNIT20 = 'SEC/SEC ' / physical units of field 20 TFORM21 = '2E ' / FORTRAN format of field 21 TTYPE21 = 'WEIGHT 2 ' / Type (heading) of field 21 TUNIT21 = ' ' / physical units of field 21 TFORM22 = '2J ' / FORTRAN format of field 22 TTYPE22 = 'REFANT 2 ' / Type (heading) of field 22 TUNIT22 = ' ' / physical units of field 22 NO_ANT = 29 NO_POL = 2 NO_IF = 2 NO_NODES= 0 MGMOD = 0.10000000000000000E+01 APPLIED = T REVISION= 10 ORIGIN = 0 ISORTORD= 1 END ?{BP9@|@i*<|HA֜A+ @f@eMoAA\ ?{BP9@B@s$g5BB @df@30mB AM ?{BP9@=i@nwZ1HA6A/ @@nj[cWBA ?{BP9A8|@nﻍ7[AAl AA[ut AB ? ?{BP9@g@>>0A#,A" @S@Q?N<?A2Al ?{BP9A1A~A}lA?:Aqi A+A,Ҿ\AEPA^ ?{BP9@A! @Ժ7@yBA ?{BP9 @ W@0ABB! @@tAlB=L ?{BP9 @Yr@پAiA^AW @%@{FFB'WBO ?{BP9 @d@KW>B'B ?{BP9 @6@L zvAA @L@OmAA\ ?{BP9@~@QrʯBAAL @E@qoNyB b B2 ?{BP9@Z.@G|hK.ʬB B( @dq@YrQNBXsOB^, ?{BP9@!@{ q*lxAEA@ @aD@*(`wAB'l ?{BP9@W9@V%&AA AcA۾AMA\ ?{BP9@GI@n.SǾMB6BM @`@xΊ.kAq`AG ?{BP9@@ ?%)B)?B @ͯ@Թ"A)B ?{BP9@Z@=/kbA˓{B5f @F@=I7H!BB ?{BP9A $ A$%AO#AYB A2A A`B ?{BP9@@ <=AhzB @@>Zj=#AЯVAr[ ?{BP9@G7@˜K]A3>AeY A@+qzϿAܣA)H XTENSION= 'BINTABLE' / Extension type BITPIX = 8 / Binary data NAXIS = 2 / Table is a matrix NAXIS1 = 124 / Width of table in bytes NAXIS2 = 1 / Number of entries in table PCOUNT = 0 / Random parameter count GCOUNT = 1 / Group count TFIELDS = 8 / Number of fields in each row EXTNAME = 'AIPS UV ' / AIPS table file EXTVER = 1 / Version number of table TFORM1 = '1E ' / FORTRAN format of field 1 TTYPE1 = 'UU---SIN ' / Type (heading) of field 1 TUNIT1 = 'SECONDS ' / physical units of field 1 TSCAL1 = 4.4473896046895E-11 / scale to physical units in field 1 TFORM2 = '1E ' / FORTRAN format of field 2 TTYPE2 = 'VV---SIN ' / Type (heading) of field 2 TUNIT2 = 'SECONDS ' / physical units of field 2 TSCAL2 = 4.4473896046895E-11 / scale to physical units in field 2 TFORM3 = '1E ' / FORTRAN format of field 3 TTYPE3 = 'WW---SIN ' / Type (heading) of field 3 TUNIT3 = 'SECONDS ' / physical units of field 3 TSCAL3 = 4.4473896046895E-11 / scale to physical units in field 3 TFORM4 = '1E ' / FORTRAN format of field 4 TTYPE4 = 'BASELINE ' / Type (heading) of field 4 TUNIT4 = ' ' / physical units of field 4 TFORM5 = '1E ' / FORTRAN format of field 5 TTYPE5 = 'DATE ' / Type (heading) of field 5 TUNIT5 = 'DAYS ' / physical units of field 5 TZERO5 = 2.4457115000000E+06 / offset to physical units in field 5 TFORM6 = '1E ' / FORTRAN format of field 6 TTYPE6 = 'SOURCE ' / Type (heading) of field 6 TUNIT6 = ' ' / physical units of field 6 TFORM7 = '1E ' / FORTRAN format of field 7 TTYPE7 = 'FREQSEL ' / Type (heading) of field 7 TUNIT7 = ' ' / physical units of field 7 TFORM8 = '24E ' / FORTRAN format of field 8 TTYPE8 = 'VISIBILITIES ' / Type (heading) of field 8 TUNIT8 = 'JY ' / physical units of field 8 TDIM8 = '(3,4,2,1,1,1)' 1CTYP8 = 'COMPLEX ' / 1=real,2=imag,3=weight 1CRVL8 = 1.00000000000E+00 / 1CDLT8 = 1.000000000E+00 / 1CRPX8 = 1.000000000E+00 / 1CROT8 = 0.000000000E+00 / 2CTYP8 = 'STOKES ' / -1=RR, -2=LL, -3=RL, -4=LR 2CRVL8 = -1.00000000000E+00 / 2CDLT8 = -1.000000000E+00 / 2CRPX8 = 1.000000000E+00 / 2CROT8 = 0.000000000E+00 / 3CTYP8 = 'IF ' / Freq. group no. in CH table 3CRVL8 = 1.00000000000E+00 / 3CDLT8 = 1.000000000E+00 / 3CRPX8 = 1.000000000E+00 / 3CROT8 = 0.000000000E+00 / 4CTYP8 = 'FREQ ' / Frequency in Hz. 4CRVL8 = 2.24850999999E+10 / 4CDLT8 = 5.000000000E+07 / 4CRPX8 = 1.000000000E+00 / 4CROT8 = 0.000000000E+00 / 5CTYP8 = 'RA ' / Right Ascension in deg. 5CRVL8 = 0.00000000000E+00 / 5CDLT8 = 1.000000000E+00 / 5CRPX8 = 1.000000000E+00 / 5CROT8 = 0.000000000E+00 / 6CTYP8 = 'DEC ' / Declination in deg. 6CRVL8 = 0.00000000000E+00 / 6CDLT8 = 1.000000000E+00 / 6CRPX8 = 1.000000000E+00 / 6CROT8 = 0.000000000E+00 / OBJECT = 'MULTI ' / Source name TELESCOP= 'VLA ' / INSTRUME= 'VLA ' / OBSERVER= 'AA99 ' / DATE-OBS= '1984-01-12' / Obs start date YYYY-MM-DD DATE-MAP= '2009-10-14' / Last processing date YYYY-MM-DD BSCALE = 1.00000000000E+00 / REAL = TAPE * BSCALE + BZERO BZERO = 0.00000000000E+00 / BUNIT = 'UNCALIB ' / Units of flux EPOCH = 2.000000000E+03 / Epoch of RA DEC BLANK = -1 / IEEE not-a-number for blanked pixels ALTRPIX = 1.000000000E+00 / Altenate FREQ/VEL ref pixel HISTORY AIPS SORT ORDER = 'TB' / Where T means TIME (IAT) / Where B means BASELINE NUM HISTORY AIPS IMNAME='19840112 ' IMCLASS='TASAV ' IMSEQ= 1 / HISTORY AIPS USERNO=22109 / HISTORY AIPS IPIECE= 1 NPIECE= 1 / piece number HISTORY AIPS FIRSTVIS= 1 / first vis # HISTORY AIPS LASTVIS = 1 / last vis # END its of field 8 TDIM8 = '(3,4,2,1,1,1)' 1CTYP8 = 'COMPLEX ' / 1=real,2=imag,3=weight 1CRVL8 = 1.00000000000E+00 / 1CDLT8 = 1.000000000E+00 / 1CRPX8 = 1.000000000E+00 / 1CROT8 = 0.000000000E+00 / 2CTYP8 = 'STOKES ' / -1=RR, -2=LL, -3=RL, -4=LR 2CRVL8 = -1.00000000000E+00 / 2CDLT8 = -1.000000000E+00 / 2CRPX8 = 1.000000000E+00 / 2CROT8 = 0.000000000E+00 / 3CTYP8 = 'IF ' / Freq. group no. in CH table 3CRVL8 = 1.00000000000E+00 / 3CDLT8 = 1.000000000E+00 / 3CRPX8 = 1.000000000E+00 / 3CROT8 = 0.000000000E+00 / 4CTYP8 = 'FREQ ' / Frequency in Hz. 4CRVL8 = 2.24850999999E+10 / 4CDLT8 = 5.000000000E+07 / 4CRPX8 = 1.000000000E+00 / 4CROT8 = 0.000000000E+00 / 5CTYP8 = 'RA ' / Right Ascension in deg. 5CRVL8 = 0.00000000000E+00 / 5CDLT8 = 1.000000000E+00 / 5CRPX8 = 1.000000000E+00 / 5CROT8 = 0.000000000E+00 / 6CTYP8 = 'DEC ' / Declination in deg. 6CRVL8 = 0.00000000000E+00 / 6CDLT8 = 1.000000000E+00 / 6CRPX8 = 1.000000000E+00 / 6CROT8 = 0.000000000E+00 / OBJECT = 'MULTI ' / Source name TELESCOP= 'VLA ' /