SIMPLE = T / Standard FITS format BITPIX = 8 / Character data NAXIS = 0 / No image data array present EXTEND = T / There may be standard extensions BLOCKED = T / Tape may be blocked to multiples of 2880 END XTENSION= 'TABLE ' / Table extension BITPIX = 8 / Character data NAXIS = 2 / Simple 2-D matrix NAXIS1 = 1440 / Number of characters per record NAXIS2 = 27884 / Number of records in the file PCOUNT = 0 / No "random" parameters GCOUNT = 1 / Only one group TFIELDS = 328 / Number of data fields per record EXTNAME = 'FSR_DATA' / IRAS Faint Source Rejects - main data file AUTHOR = 'IPAC ' / Infrared Processing and Analysis Center REFERENC= 'Version 1.0' / Catalog reference DATE = '21/05/92' / Date file was generated (dd/mm/yy) COMMENT This FITS header is NOT a complete scientific document for the subject COMMENT file. It serves only as a minimal description of the general COMMENT format and structure of the data file. COMMENT A copy of "Explanatory Supplement to the Faint Source Survey", COMMENT Version 2, should be used to answer questions about the data COMMENT in the FSR. COMMENT Names which refer to each of the four IRAS bands of 12, 25, 60 and COMMENT 100 microns are suffixed with the numerals 12, 25, 60 and 100. COMMENT For example FNU_12 is the flux density at 12 microns. TTYPE1 = 'NAME ' / Source name TBCOL1 = 1 / Start column TFORM1 = 'A12 ' / Fortran format TTYPE2 = 'FCAT ' / Final catalog flag TBCOL2 = 13 / Start column TFORM2 = 'A1 ' / Fortran format TTYPE3 = 'RAH ' / Hours RA, equinox B1950.0, epoch 1983.5 TBCOL3 = 14 / Start column TFORM3 = 'I2 ' / Fortran format TUNIT3 = 'HR ' / Units are hours of time TTYPE4 = 'RAM ' / Minutes RA, equinox B1950.0, epoch 1983.5 TBCOL4 = 16 / Start column TFORM4 = 'I2 ' / Fortran format TUNIT4 = 'MIN ' / Units are minutes of time TTYPE5 = 'RAS ' / Seconds RA, equinox B1950.0, epoch 1983.5 TBCOL5 = 18 / Start column TFORM5 = 'F3.1 ' / Fortran format TUNIT5 = 'SEC ' / Units are seconds of time TTYPE6 = 'DECSIGN ' / Sign of DEC, equinox B1950.0, epoch 1983.5 TBCOL6 = 21 / Start column TFORM6 = 'A1 ' / Fortran format TTYPE7 = 'DECD ' / Degrees DEC, equinox B1950.0, epoch 1983.5 TBCOL7 = 22 / Start column TFORM7 = 'I2 ' / Fortran format TUNIT7 = 'DEG ' / Units are degrees TTYPE8 = 'DECM ' / Minutes DEC, equinox B1950.0, epoch 1983.5 TBCOL8 = 24 / Start column TFORM8 = 'I2 ' / Fortran format TUNIT8 = 'ARCMIN ' / Units are minutes of arc TTYPE9 = 'DECS ' / Seconds DEC, equinox B1950.0, epoch 1983.5 TBCOL9 = 26 / Start column TFORM9 = 'I2 ' / Fortran format TUNIT9 = 'ARCSEC ' / Units are seconds of arc TTYPE10 = 'RAH_2000 ' / Hours RA, equinox J2000.0, epoch 1983.5 TBCOL10 = 28 / Start column TFORM10 = 'I2 ' / Fortran format TUNIT10 = 'HR ' / Units are hours of time TTYPE11 = 'RAM_2000 ' / Minutes RA, equinox J2000.0, epoch 1983.5 TBCOL11 = 30 / Start column TFORM11 = 'I2 ' / Fortran format TUNIT11 = 'MIN ' / Units are minutes of time TTYPE12 = 'RAS_2000 ' / Seconds RA, equinox J2000.0, epoch 1983.5 TBCOL12 = 32 / Start column TFORM12 = 'F3.1 ' / Fortran format TUNIT12 = 'SEC ' / Units are seconds of time TTYPE13 = 'DECSIGN_2000' / Sign of DEC, equinox J2000.0, epoch 1983.5 TBCOL13 = 35 / Start column TFORM13 = 'A1 ' / Fortran format TTYPE14 = 'DECD_2000' / Degrees DEC, equinox J2000.0, epoch 1983.5 TBCOL14 = 36 / Start column TFORM14 = 'I2 ' / Fortran format TUNIT14 = 'DEG ' / Units are degrees TTYPE15 = 'DECM_2000' / Minutes DEC, equinox J2000.0, epoch 1983.5 TBCOL15 = 38 / Start column TFORM15 = 'I2 ' / Fortran format TUNIT15 = 'ARCMIN ' / Units are minutes of arc TTYPE16 = 'DECS_2000' / Seconds DEC, equinox J2000.0, epoch 1983.5 TBCOL16 = 40 / Start column TFORM16 = 'I2 ' / Fortran format TUNIT16 = 'ARCSEC ' / Units are seconds of arc TTYPE17 = 'RA ' / Right Ascension B1950.0 TBCOL17 = 42 / Start column TFORM17 = 'F10.6 ' / Fortran format TUNIT17 = 'DEGREES ' / Units are degrees TTYPE18 = 'DEC ' / Declination B1950.0 TBCOL18 = 52 / Start column TFORM18 = 'F10.6 ' / Fortran format TUNIT18 = 'DEGREES ' / Units are degrees TTYPE19 = 'L ' / Galactic Longitude TBCOL19 = 62 / Start column TFORM19 = 'F10.6 ' / Fortran format TUNIT19 = 'DEGREES ' / Units are degrees TTYPE20 = 'B ' / Galactic Latitude TBCOL20 = 72 / Start column TFORM20 = 'F10.6 ' / Fortran format TUNIT20 = 'DEGREES ' / Units are degrees TTYPE21 = 'KEYFSS ' / Data Base Pointer TBCOL21 = 82 / Start column TFORM21 = 'I7 ' / Fortran format TTYPE22 = 'UNCMAJOR' / Uncertainty ellipse major axis TBCOL22 = 89 / Start column TFORM22 = 'F5.2 ' / Fortran format TUNIT22 = 'ARCSEC ' / Units are seconds of arc TTYPE23 = 'UNCMINOR' / Uncertainty ellipse minor axis TBCOL23 = 94 / Start column TFORM23 = 'F5.2 ' / Fortran format TUNIT23 = 'ARCSEC ' / Units are seconds of arc TTYPE24 = 'POSANG ' / Uncertainty ellipse position angle, / equinox B1950.0, epoch 1983.5 TBCOL24 = 99 / Start column TFORM24 = 'F4.1 ' / Fortran format TUNIT24 = 'DEG ' / Units are degrees East of North COMMENT POSANG (field 24) is measured in degrees East of North between the COMMENT major axis of the ellipse and the local equatorial meridian. TTYPE25 = 'NOBS_12 ' / Number of times observed at 12 mu TBCOL25 = 103 / Start column TFORM25 = 'I3 ' / Fortran format TNULL25 = ' ' / Null value COMMENT NOBS is NULL when the corresponding band has no detection COMMENT (SNR = 1). TTYPE26 = 'NOBS_25 ' / Number of times observed at 25 mu TBCOL26 = 106 / Start column TFORM26 = 'I3 ' / Fortran format TNULL26 = ' ' / Null value TTYPE27 = 'NOBS_60 ' / Number of times observed at 60 mu TBCOL27 = 109 / Start column TFORM27 = 'I3 ' / Fortran format TNULL27 = ' ' / Null value TTYPE28 = 'NOBS_100' / Number of times observed at 100 mu TBCOL28 = 112 / Start column TFORM28 = 'I3 ' / Fortran format TNULL28 = ' ' / Null value TTYPE29 = 'FNU_12 ' / Non-color corrected flux density at 12 mu TBCOL29 = 115 / Start column TFORM29 = 'E10.4 ' / Fortran format TUNIT29 = 'JANSKY ' / Units are Janskys TNULL29 = ' ' / Null value COMMENT FNU is only NULL in the rare instance when there is insufficient COMMENT information available to make a good estimate of the upper limit. TTYPE30 = 'FNU_25 ' / Non-color corrected flux density at 25 mu TBCOL30 = 125 / Start column TFORM30 = 'E10.4 ' / Fortran format TUNIT30 = 'JANSKY ' / Units are Janskys TNULL30 = ' ' / Null value TTYPE31 = 'FNU_60 ' / Non-color corrected flux density at 60 mu TBCOL31 = 135 / Start column TFORM31 = 'E10.4 ' / Fortran format TUNIT31 = 'JANSKY ' / Units are Janskys TNULL31 = ' ' / Null value TTYPE32 = 'FNU_100 ' / Non-color corrected flux density at 100 mu TBCOL32 = 145 / Start column TFORM32 = 'E10.4 ' / Fortran format TUNIT32 = 'JANSKY ' / Units are Janskys TNULL32 = ' ' / Null value TTYPE33 = 'FQUAL_12' / Flux density quality at 12 mu TBCOL33 = 155 / Start column TFORM33 = 'I1 ' / Fortran format TTYPE34 = 'FQUAL_25' / Flux density quality at 25 mu TBCOL34 = 156 / Start column TFORM34 = 'I1 ' / Fortran format TTYPE35 = 'FQUAL_60' / Flux density quality at 60 mu TBCOL35 = 157 / Start column TFORM35 = 'I1 ' / Fortran format TTYPE36 = 'FQUAL_100' / Flux density quality at 100 mu TBCOL36 = 158 / Start column TFORM36 = 'I1 ' / Fortran format TTYPE37 = 'RELUNC_12' / Percent rel. flux density uncertainty at 12 mu TBCOL37 = 159 / Start column TFORM37 = 'F3.1 ' / Fortran format TTYPE38 = 'RELUNC_25' / Percent rel. flux density uncertainty at 25 mu TBCOL38 = 162 / Start column TFORM38 = 'F3.1 ' / Fortran format TTYPE39 = 'RELUNC_60' / Percent rel. flux density uncertainty at 60 mu TBCOL39 = 165 / Start column TFORM39 = 'F3.1 ' / Fortran format TTYPE40 = 'RELUNC_100' / Percent rel. flux density uncertainty at / 100 mu TBCOL40 = 168 / Start column TFORM40 = 'F3.1 ' / Fortran format TTYPE41 = 'RELIAB_12' / Percent source reliability at 12 mu TBCOL41 = 171 / Start column TFORM41 = 'I2 ' / Fortran format TNULL41 = ' ' / Null value TTYPE42 = 'RELIAB_25' / Percent source reliability at 25 mu TBCOL42 = 173 / Start column TFORM42 = 'I2 ' / Fortran format TNULL42 = ' ' / Null value TTYPE43 = 'RELIAB_60' / Percent source reliability at 60 mu TBCOL43 = 175 / Start column TFORM43 = 'I2 ' / Fortran format TNULL43 = ' ' / Null value TTYPE44 = 'RELIAB_100' / Percent source reliability at 100 mu TBCOL44 = 177 / Start column TFORM44 = 'I2 ' / Fortran format TNULL44 = ' ' / Null value TTYPE45 = 'SNR_12 ' / SNR at 12 mu TBCOL45 = 179 / Start column TFORM45 = 'E10.4 ' / Fortran format TNULL45 = '0.0000E+00' / Null value COMMENT SNR (fields 45,46,47, and 48) are set to 0.0 to signify no COMMENT detection in that particular wavelength band. Other fields COMMENT will be set to null values when this field is 0.0. Those fields COMMENT are NOBS, RELIAB, LOCSNR, AREA, YOFFSET, ZOFFSET, SHAPEMAJ, SHAPEMIN, COMMENT SHAPANGY, MAXLSNR, ISLCOR, AVENOBS, SIGNOBS, AVN, AVINVN, COMMENT AVINVRN, CCMAX, CCMAXLOC, CNTRDCC, FRATIO, NOISRAT, NOISCOR, NPARENT, COMMENT NCHLDRN, PROBLIN, COMPDIST, COMPANGL. TTYPE46 = 'SNR_25 ' / SNR at 25 mu TBCOL46 = 189 / Start column TFORM46 = 'E10.4 ' / Fortran format TNULL46 = '0.0000E+00' / Null value TTYPE47 = 'SNR_60 ' / SNR at 60 mu TBCOL47 = 199 / Start column TFORM47 = 'E10.4 ' / Fortran format TNULL47 = '0.0000E+00' / Null value TTYPE48 = 'SNR_100 ' / SNR at 100 mu TBCOL48 = 209 / Start column TFORM48 = 'E10.4 ' / Fortran format TNULL48 = '0.0000E+00' / Null value TTYPE49 = 'LOCSNR_12' / Local SNR at 12 mu TBCOL49 = 219 / Start column TFORM49 = 'E10.4 ' / Fortran format TNULL49 = ' ' / Null value COMMENT LOCSNR values sometimes have the value 0.0, distinct from NULL. COMMENT This happens when there were too few observations in the pixel COMMENT containing the peak signal to estimate the noise there. TTYPE50 = 'LOCSNR_25' / Local SNR at 25 mu TBCOL50 = 229 / Start column TFORM50 = 'E10.4 ' / Fortran format TNULL50 = ' ' / Null value TTYPE51 = 'LOCSNR_60' / Local SNR at 60 mu TBCOL51 = 239 / Start column TFORM51 = 'E10.4 ' / Fortran format TNULL51 = ' ' / Null value TTYPE52 = 'LOCSNR_100' / Local SNR at 100 mu TBCOL52 = 249 / Start column TFORM52 = 'E10.4 ' / Fortran format TNULL52 = ' ' / Null value TTYPE53 = 'CATNBR ' / Number of catalog sources within 6' TBCOL53 = 259 / Start column TFORM53 = 'I2 ' / Fortran format TTYPE54 = 'CATNBR30' / Number of catalog sources within 30' TBCOL54 = 261 / Start column TFORM54 = 'I2 ' / Fortran format TTYPE55 = 'EXTNBR ' / Number of extractions within 6' TBCOL55 = 263 / Start column TFORM55 = 'I2 ' / Fortran format TTYPE56 = 'EXTNBR30' / Number of extractions within 30' TBCOL56 = 265 / Start column TFORM56 = 'I2 ' / Fortran format TTYPE57 = 'CATNBR1_12' / Number of 12 mu catalog sources within 6' TBCOL57 = 267 / Start column TFORM57 = 'I2 ' / Fortran format TTYPE58 = 'CATNBR1_25' / Number of 25 mu catalog sources within 6' TBCOL58 = 269 / Start column TFORM58 = 'I2 ' / Fortran format TTYPE59 = 'CATNBR1_60' / Number of 60 mu catalog sources within 6' TBCOL59 = 271 / Start column TFORM59 = 'I2 ' / Fortran format TTYPE60 = 'CATNBR1_100' / Number of 100 mu catalog sources within 6' TBCOL60 = 273 / Start column TFORM60 = 'I2 ' / Fortran format TTYPE61 = 'CATNBR2_12' / Number of 12 mu catalog sources within 30' TBCOL61 = 275 / Start column TFORM61 = 'I2 ' / Fortran format TTYPE62 = 'CATNBR2_25' / Number of 25 mu catalog sources within 30' TBCOL62 = 277 / Start column TFORM62 = 'I2 ' / Fortran format TTYPE63 = 'CATNBR2_60' / Number of 60 mu catalog sources within 30' TBCOL63 = 279 / Start column TFORM63 = 'I2 ' / Fortran format TTYPE64 = 'CATNBR2_100' / Number of 100 mu catalog sources within 30' TBCOL64 = 281 / Start column TFORM64 = 'I2 ' / Fortran format TTYPE65 = 'EXTNBR1_12' / Number of 12 mu extractions within 6' TBCOL65 = 283 / Start column TFORM65 = 'I2 ' / Fortran format TTYPE66 = 'EXTNBR1_25' / Number of 25 mu extractions within 6' TBCOL66 = 285 / Start column TFORM66 = 'I2 ' / Fortran format TTYPE67 = 'EXTNBR1_60' / Number of 60 mu extractions within 6' TBCOL67 = 287 / Start column TFORM67 = 'I2 ' / Fortran format TTYPE68 = 'EXTNBR1_100' / Number of 100 mu extractions within 6' TBCOL68 = 289 / Start column TFORM68 = 'I2 ' / Fortran format TTYPE69 = 'EXTNBR2_12' / Number of 12 mu extractions within 30' TBCOL69 = 291 / Start column TFORM69 = 'I2 ' / Fortran format TTYPE70 = 'EXTNBR2_25' / Number of 25 mu extractions within 30' TBCOL70 = 293 / Start column TFORM70 = 'I2 ' / Fortran format TTYPE71 = 'EXTNBR2_60' / Number of 60 mu extractions within 30' TBCOL71 = 295 / Start column TFORM71 = 'I2 ' / Fortran format TTYPE72 = 'EXTNBR2_100' / Number of 100 mu extractions within 30' TBCOL72 = 297 / Start column TFORM72 = 'I2 ' / Fortran format TTYPE73 = 'CIRRUS1 ' / Number of 100 mu-only or cold extractions / within 30 ' TBCOL73 = 299 / Start column TFORM73 = 'I2 ' / Fortran format COMMENT The term 'cold' used in the three cirrus flags (fields 73, 74, 75) COMMENT is defined by log(fnu(60 mu)/fnu(100 mu)) <= -0.75. TTYPE74 = 'CIRRUS2 ' / Number of 100 mu-only or cold extractions / within 20 ' TBCOL74 = 301 / Start column TFORM74 = 'I2 ' / Fortran format TTYPE75 = 'CIRRUS3 ' / Number of 100 mu-only or cold extractions / within 6 ' TBCOL75 = 303 / Start column TFORM75 = 'I2 ' / Fortran format TTYPE76 = 'C1SIMPLE' / Number of 100 mu-only extractions / within 30 ' TBCOL76 = 305 / Start column TFORM76 = 'I2 ' / Fortran format TTYPE77 = 'C2SIMPLE' / Number of 100 mu-only extractions / within 20 ' TBCOL77 = 307 / Start column TFORM77 = 'I2 ' / Fortran format TTYPE78 = 'C3SIMPLE' / Number of 100 mu-only extractions / within 6 ' TBCOL78 = 309 / Start column TFORM78 = 'I2 ' / Fortran format TTYPE79 = 'FNULIM_12' / 12 mu flux density upper-limit TBCOL79 = 311 / Start column TUNIT79 = 'JANSKY ' / Units are Janskys TFORM79 = 'E10.4 ' / Fortran format COMMENT FNULIM (fields 79, 80, 81, and 82) values are not color corrected. TTYPE80 = 'FNULIM_25' / 25 mu flux density upper-limit TBCOL80 = 321 / Start column TUNIT80 = 'JANSKY ' / Units are Janskys TFORM80 = 'E10.4 ' / Fortran format TTYPE81 = 'FNULIM_60' / 60 mu flux density upper-limit TBCOL81 = 331 / Start column TUNIT81 = 'JANSKY ' / Units are Janskys TFORM81 = 'E10.4 ' / Fortran format TTYPE82 = 'FNULIM_100' / 100 mu flux density upper-limit TBCOL82 = 341 / Start column TUNIT82 = 'JANSKY ' / Units are Janskys TFORM82 = 'E10.4 ' / Fortran format TTYPE83 = 'FNUPLATE_12' / 12 mu flux density from plate TBCOL83 = 351 / Start column TUNIT83 = 'JANSKY ' / Units are Janskys TFORM83 = 'E10.4 ' / Fortran format TNULL83 = ' ' / Null value COMMENT FNUPLATE values (fields 83, 84, 85, and 86) are not color corrected. COMMENT FNUPLATE is NULL when insufficient data are available. TTYPE84 = 'FNUPLATE_25' / 25 mu flux density from plate TBCOL84 = 361 / Start column TUNIT84 = 'JANSKY ' / Units are Janskys TFORM84 = 'E10.4 ' / Fortran format TNULL84 = ' ' / Null value TTYPE85 = 'FNUPLATE_60' / 60 mu flux density from plate TBCOL85 = 371 / Start column TUNIT85 = 'JANSKY ' / Units are Janskys TFORM85 = 'E10.4 ' / Fortran format TNULL85 = ' ' / Null value TTYPE86 = 'FNUPLATE_100' / 100 mu flux density from plate TBCOL86 = 381 / Start column TUNIT86 = 'JANSKY ' / Units are Janskys TFORM86 = 'E10.4 ' / Fortran format TNULL86 = ' ' / Null value TTYPE87 = 'SIGPLATE_12' / 12 mu flux density rms error from plate TBCOL87 = 391 / Start column TUNIT87 = 'JANSKY ' / Units are Janskys TFORM87 = 'E10.4 ' / Fortran format TNULL87 = ' ' / Null value COMMENT SIGPLATE values (fields 87, 88, 89, and 90) are not color corrected. COMMENT SIGPLATE is NULL when insufficient data are available. TTYPE88 = 'SIGPLATE_25' / 25 mu flux density rms error from plate TBCOL88 = 401 / Start column TUNIT88 = 'JANSKY ' / Units are Janskys TFORM88 = 'E10.4 ' / Fortran format TNULL88 = ' ' / Null value TTYPE89 = 'SIGPLATE_60' / 60 mu flux density rms error from plate TBCOL89 = 411 / Start column TUNIT89 = 'JANSKY ' / Units are Janskys TFORM89 = 'E10.4 ' / Fortran format TNULL89 = ' ' / Null value TTYPE90 = 'SIGPLATE_100' / 100 mu flux density rms error from plate TBCOL90 = 421 / Start column TUNIT90 = 'JANSKY ' / Units are Janskys TFORM90 = 'E10.4 ' / Fortran format TNULL90 = ' ' / Null value TTYPE91 = 'NONLCOR_12' / 12 mu non-linear flux density correction TBCOL91 = 431 / Start column TFORM91 = 'E9.3 ' / Fortran format TTYPE92 = 'NONLCOR_25' / 25 mu non-linear flux density correction TBCOL92 = 440 / Start column TFORM92 = 'E9.3 ' / Fortran format TTYPE93 = 'NONLCOR_60' / 60 mu non-linear flux density correction TBCOL93 = 449 / Start column TFORM93 = 'E9.3 ' / Fortran format TTYPE94 = 'NONLCOR_100' / 100 mu non-linear flux density correction TBCOL94 = 458 / Start column TFORM94 = 'E9.3 ' / Fortran format TTYPE95 = 'PLATE ' / Plate extracted from TBCOL95 = 467 / Start column TFORM95 = 'I4 ' / Fortran format TTYPE96 = 'AREA_12 ' / Number of pixels above threshold at 12 mu TBCOL96 = 471 / Start column TFORM96 = 'I3 ' / Fortran format TNULL96 = ' ' / Null value TTYPE97 = 'AREA_25 ' / Number of pixels above threshold at 25 mu TBCOL97 = 474 / Start column TFORM97 = 'I3 ' / Fortran format TNULL97 = ' ' / Null value TTYPE98 = 'AREA_60 ' / Number of pixels above threshold at 60 mu TBCOL98 = 477 / Start column TFORM98 = 'I3 ' / Fortran format TNULL98 = ' ' / Null value TTYPE99 = 'AREA_100' / Number of pixels above threshold at 100 mu TBCOL99 = 480 / Start column TFORM99 = 'I3 ' / Fortran format TNULL99 = ' ' / Null value TTYPE100= 'YCNTROID' / flux-weighted centroid along / plate y-axis TBCOL100= 483 / Start column TUNIT100= 'PIXELS ' / Units are pixels TFORM100= 'F7.2 ' / Fortran format TTYPE101= 'ZCNTROID' / Flux-weighted centroid along / plate z-axis TBCOL101= 490 / Start column TUNIT101= 'PIXELS ' / Units are pixels TFORM101= 'F7.2 ' / Fortran format TTYPE102= 'BEAMANGY' / Beam orientation angle with respect to / plate y-axi TBCOL102= 497 / Start column TUNIT102= 'DEG ' / Units are degrees East of plate y-axis TFORM102= 'F4.1 ' / Fortran format COMMENT BEAMANGY (field 102) is measured in degrees East of plate y-axis. TTYPE103= 'BEAMMAJ_12' / 12 mu beam size along major axis TBCOL103= 501 / Start column TUNIT103= 'ARCSEC ' / Units are seconds of arc TFORM103= 'I4 ' / Fortran format TTYPE104= 'BEAMMAJ_25' / 25 mu beam size along major axis TBCOL104= 505 / Start column TUNIT104= 'ARCSEC ' / Units are seconds of arc TFORM104= 'I4 ' / Fortran format TTYPE105= 'BEAMMAJ_60' / 60 mu beam size along major axis TBCOL105= 509 / Start column TUNIT105= 'ARCSEC ' / Units are seconds of arc TFORM105= 'I4 ' / Fortran format TTYPE106= 'BEAMMAJ_100' / 100 mu beam size along major axis TBCOL106= 513 / Start column TUNIT106= 'ARCSEC ' / Units are seconds of arc TFORM106= 'I4 ' / Fortran format TTYPE107= 'BEAMMIN_12' / 12 mu beam size along minor axis TBCOL107= 517 / Start column TUNIT107= 'ARCSEC ' / Units are seconds of arc TFORM107= 'I4 ' / Fortran format TTYPE108 'BEAMMIN_25' / 25 mu beam size along minor axis TBCOL108= 521 / Start column TUNIT108= 'ARCSEC ' / Units are seconds of arc TFORM108= 'I4 ' / Fortran format TTYPE109= 'BEAMMIN_60' / 60 mu beam size along minor axis TBCOL109 525 / Start column TUNIT109= 'ARCSEC ' / Units are seconds of arc TFORM109= 'I4 ' / Fortran format TTYPE110 'BEAMMIN_100' / 100 mu beam size along minor axis TBCOL110= 529 / Start column TUNIT110= 'ARCSEC ' / Units are seconds of arc TFORM110= 'I4 ' / Fortran format TTYPE111 'YOFFSET_12' / 12 mu centroid distance to peak pixel / along y-axis TBCOL111= 533 / Start column TUNIT111= 'ARCSEC ' / Units are seconds of arc TFORM111= 'I4 ' / Fortran format TNULL111= ' ' / Null value TTYPE112= 'YOFFSET_25' / 25 mu centroid distance to peak pixel / along y-axis TBCOL112= 537 / Start column TUNIT112 'ARCSEC ' / Units are seconds of arc TFORM112= 'I4 ' / Fortran format TNULL112= ' ' / Null value TTYPE113= 'YOFFSET_60' / 60 mu centroid distance to peak pixel / along y-axis TBCOL113= 541 / Start column TUNIT113= 'ARCSEC ' / Units are seconds of arc TFORM113= 'I4 ' / Fortran format TNULL113= ' ' / Null value TTYPE114= 'YOFFSET_100' / 100 mu centroid distance to peak pixel / along y-axis TBCOL114= 545 / Start column TUNIT114= 'ARCSEC ' / Units are seconds of arc TFORM114= 'I4 ' / Fortran format TNULL114= ' ' / Null value TTYPE115= 'ZOFFSET_12' / 12 mu centroid distance to peak pixel / along z-axis TBCOL115= 549 / Start column TUNIT115= 'ARCSEC ' / Units are seconds of arc TFORM115= 'I4 ' / Fortran format TNULL115= ' ' / Null value TTYPE116= 'ZOFFSET_25' / 25 mu centroid distance to peak pixel / along z-axis TBCOL116= 553 / Start column TUNIT116= 'ARCSEC ' / Units are seconds of arc TFORM116= 'I4 ' / Fortran format TNULL116= ' ' / Null value TTYPE117= 'ZOFFSET_60' / 60 mu centroid distance to peak pixel / along z-axis TBCOL117= 557 / Start column TUNIT117= 'ARCSEC ' / Units are seconds of arc TFORM117= 'I4 ' / Fortran format TNULL117= ' ' / Null value TTYPE118= 'ZOFFSET_100' / 100 mu centroid distance to peak pixel / along z-axis TBCOL118= 561 / Start column TUNIT118= 'ARCSEC ' / Units are seconds of arc TFORM118= 'I4 ' / Fortran format TNULL118= ' ' / Null value TTYPE119= 'SHAPEMAJ_12' / 12 mu pixel distribution semi-major axis TBCOL119= 565 / Start column TUNIT119 'ARCSEC ' / Units are seconds of arc TFORM119= 'I4 ' / Fortran format TNULL119= ' ' / Null value TTYPE120= 'SHAPEMAJ_25' / 25 mu pixel distribution semi-major axis TBCOL120= 569 / Start column TUNIT120= 'ARCSEC ' / Units are seconds of arc TFORM120= 'I4 ' / Fortran format TNULL120= ' ' / Null value TTYPE121= 'SHAPEMAJ_60' / 60 mu pixel distribution semi-major axis TBCOL121= 573 / Start column TUNIT121= 'ARCSEC ' / Units are seconds of arc TFORM121= 'I4 ' / Fortran format TNULL121= ' ' / Null value TTYPE122= 'SHAPEMAJ_100' / 100 mu pixel distribution semi-major axis TBCOL122= 577 / Start column TUNIT122= 'ARCSEC ' / Units are seconds of arc TFORM122= 'I4 ' / Fortran format TNULL122= ' ' / Null value TTYPE123= 'SHAPEMIN_12' / 12 mu pixel distribution semi-minor axis TBCOL123= 581 / Start column TUNIT123= 'ARCSEC ' / Units are seconds of arc TFORM123= 'I4 ' / Fortran format TNULL123= ' ' / Null value TTYPE124= 'SHAPEMIN_25' / 25 mu pixel distribution semi-minor axis TBCOL124= 585 / Start column TUNIT124= 'ARCSEC ' / Units are seconds of arc TFORM124= 'I4 ' / Fortran format TNULL124= ' ' / Null value TTYPE125= 'SHAPEMIN_60' / 60 mu pixel distribution semi-minor axis TBCOL125= 589 / Start column TUNIT125= 'ARCSEC ' / Units are seconds of arc TFORM125= 'I4 ' / Fortran format TNULL125= ' ' / Null value TTYPE126= 'SHAPEMIN_100' / 100 mu pixel distribution semi-minor axis TBCOL126= 593 / Start column TUNIT126= 'ARCSEC ' / Units are seconds of arc TFORM126= 'I4 ' / Fortran format TNULL126= ' ' / Null value TTYPE127 'SHAPANGY_12' / 12 mu pixel distribution orientation / with respect to plate y-axis TBCOL127= 597 / Start column TUNIT127= 'DEG ' / Units are degrees East of plate y-axis. TFORM127= 'F4.1 ' / Fortran format TNULL127= ' ' / Null value COMMENT SHAPANGY (fields 127, 128, 129, 130) is measured in degrees COMMENT East of plate y-axis. TTYPE128= 'SHAPANGY_25' / 25 mu pixel distribution orientation / with respect to plate y-axis TBCOL128= 601 / Start column TUNIT128= 'DEG ' / Units are degrees East of plate y-axis. TFORM128= 'F4.1 ' / Fortran format TNULL128= ' ' / Null value TTYPE129= 'SHAPANGY_60' / 60 mu pixel distribution orientation / with respect to plate y-axis TBCOL129= 605 / Start column TUNIT129= 'DEG ' / Units are degrees East of plate y-axis. TFORM129= 'F4.1 ' / Fortran format TNULL129= ' ' / Null value TTYPE130= 'SHAPANGY_100' / 100 mu pixel distribution orientation / with respect to plate y-axis TBCOL130= 609 / Start column TUNIT130= 'DEG ' / Units are degrees East of plate y-axis. TFORM130= 'F4.1 ' / Fortran format TNULL130= ' ' / Null value TTYPE131= 'MAXLSNR_12' / Maximum local SNR over 12 mu pixel / distribution TBCOL131= 613 / Start column TFORM131= 'E9.3 ' / Fortran format TNULL131= ' ' / Null value TTYPE132= 'MAXLSNR_25' / Maximum local SNR over 25 mu pixel / distribution TBCOL132= 622 / Start column TFORM132= 'E9.3 ' / Fortran format TNULL132= ' ' / Null value TTYPE133= 'MAXLSNR_60' / Maximum local SNR over 60 mu pixel / distribution TBCOL133= 631 / Start column TFORM133= 'E9.3 ' / Fortran format TNULL133= ' ' / Null value TTYPE134= 'MAXLSNR_100' / Maximum local SNR over 100 mu pixel / distribution TBCOL134= 640 / Start column TFORM134= 'E9.3 ' / Fortran format TNULL134= ' ' / Null value TTYPE135= 'ISLCOR_12' / 12 mu island correction factor TBCOL135= 649 / Start column TFORM135= 'E9.3 ' / Fortran format TNULL135= ' ' / Null value COMMENT ISLCOR (fields 135 - 138) will be NULL for non-detections. TTYPE136= 'ISLCOR_25' / 25 mu island correction factor TBCOL136= 658 / Start column TFORM136= 'E9.3 ' / Fortran format TNULL136= ' ' / Null value TTYPE137= 'ISLCOR_60' / 60 mu island correction factor TBCOL137= 667 / Start column TFORM137= 'E9.3 ' / Fortran format TNULL137= ' ' / Null value TTYPE138= 'ISLCOR_100' / 100 mu island correction factor TBCOL138= 676 / Start column TFORM138= 'E9.3 ' / Fortran format TNULL138= ' ' / Null value TTYPE139= 'AVENOBS_12' / Average of counts above 12 mu threshold TBCOL139= 685 / Start column TFORM139= 'F6.2 ' / Fortran format TNULL139= ' ' / Null value TTYPE140= 'AVENOBS_25' / Average of counts above 25 mu threshold TBCOL140= 691 / Start column TFORM140= 'F6.2 ' / Fortran format TNULL140= ' ' / Null value TTYPE141= 'AVENOBS_60' / Average of counts above 60 mu threshold TBCOL141= 697 / Start column TFORM141= 'F6.2 ' / Fortran format TNULL141= ' ' / Null value TTYPE142= 'AVENOBS_100 / Average of counts above 100 mu threshold TBCOL142= 703 / Start column TFORM142= 'F6.2 ' / Fortran format TNULL142= ' ' / Null value TTYPE143= 'SIGNOBS_12' / RMS Deviation of counts above 12 mu threshold TBCOL143= 709 / Start column TFORM143= 'E8.2 ' / Fortran format TNULL143= ' ' / Null value TTYPE144= 'SIGNOBS_25' / RMS Deviation of counts above 25 mu threshold TBCOL144= 717 / Start column TFORM144= 'E8.2 ' / Fortran format TNULL144= ' ' / Null value TTYPE145= 'SIGNOBS_60' / RMS Deviation of counts above 60 mu threshold TBCOL145= 725 / Start column TFORM145= 'E8.2 ' / Fortran format TNULL145= ' ' / Null value TTYPE146= 'SIGNOBS_100 / RMS Deviation of counts above 100 mu threshold TBCOL146= 733 / Start column TFORM146= 'E8.2 ' / Fortran format TNULL146= ' ' / Null value TTYPE147= 'AVN_12' / 12 mu regional average coverage TBCOL147= 741 / Start column TFORM147= 'E9.3 ' / Fortran format TNULL147= ' ' / Null value TTYPE148= 'AVN_25' / 25 mu regional average coverage TBCOL148= 750 / Start column TFORM148= 'E9.3 ' / Fortran format TNULL148= ' ' / Null value TTYPE149= 'AVN_60' / 60 mu regional average coverage TBCOL149= 759 / Start column TFORM149= 'E9.3 ' / Fortran format TNULL149= ' ' / Null value TTYPE150= 'AVN_100' / 100 mu regional average coverage TBCOL150= 768 / Start column TFORM150= 'E9.3 ' / Fortran format TNULL150= ' ' / Null value TTYPE151= 'AVINVN_12' / 12 mu regional average inverse coverage TBCOL151= 777 / Start column TFORM151= 'E9.3 ' / Fortran format TNULL151= ' ' / Null value TTYPE152= 'AVINVN_25' / 25 mu regional average inverse coverage TBCOL152= 786 / Start column TFORM152= 'E9.3 ' / Fortran format TNULL152= ' ' / Null value TTYPE153= 'AVINVN_60' / 60 mu regional average inverse coverage TBCOL153= 795 / Start column TFORM153= 'E9.3 ' / Fortran format TNULL153= ' ' / Null value TTYPE154= 'AVINVN_100' / 100 mu regional average inverse coverage TBCOL154= 804 / Start column TFORM154= 'E9.3 ' / Fortran format TNULL154= ' ' / Null value TTYPE155= 'AVINVRN_12' / 12 mu regional average inverse / square root coverage TBCOL155= 813 / Start column TFORM155= 'E9.3 ' / Fortran format TNULL155= ' ' / Null value TTYPE156= 'AVINVRN_25' / 25 mu regional average inverse / square root coverage TBCOL156= 822 / Start column TFORM156= 'E9.3 ' / Fortran format TNULL156= ' ' / Null value TTYPE157= 'AVINVRN_60' / 60 mu regional average inverse / suare root coverage TBCOL157= 831 / Start column TFORM157= 'E9.3 ' / Fortran format TNULL157= ' ' / Null value TTYPE158= 'AVINVRN_100' / 100 mu regional average inverse / square root coverage TBCOL158= 840 / Start column TFORM158= 'E9.3 ' / Fortran format TNULL158= ' ' / Null value TTYPE159= 'CCMAX_12' / Maximum value of 12 mu correlation coefficient TBCOL159= 849 / Start column TFORM159= 'I4 ' / Fortran format TSCAL159= '0.1 ' / Scale by 0.1 TNULL159= ' ' / Null value TTYPE160= 'CCMAX_25' / Maximum value of 25 mu correlation coefficient TBCOL160= 853 / Start column TFORM160= 'I4 ' / Fortran format TSCAL160= '0.1 ' / Scale by 0.1 TNULL160= ' ' / Null value TTYPE161= 'CCMAX_60' / Maximum value of 60 mu correlation coefficient TBCOL161= 857 / Start column TFORM161= 'I4 ' / Fortran format TSCAL161= '0.1 ' / Scale by 0.1 TNULL161= ' ' / Null value TTYPE162= 'CCMAX_100' / Maximum value, 100 mu correlation coefficient TBCOL162= 861 / Start column TFORM162= 'I4 ' / Fortran format TSCAL162= '0.1 ' / Scale by 0.1 TNULL162= ' ' / Null value TTYPE163= 'CCMAXLOC_12' / Pointer to location of 12 mu CCMAX TBCOL163= 865 / Start column TFORM163= 'I1 ' / Fortran format TNULL163= ' ' / Null value TTYPE164= 'CCMAXLOC_25' / Pointer to location of 25 mu CCMAX TBCOL164= 866 / Start column TFORM164= 'I1 ' / Fortran format TNULL164= ' ' / Null value TTYPE165= 'CCMAXLOC_60' / Pointer to location of 60 mu CCMAX TBCOL165= 867 / Start column TFORM165= 'I1 ' / Fortran format TNULL165= ' ' / Null value TTYPE166= 'CCMAXLOC_100' / Pointer to location of 100 mu CCMAX TBCOL166= 868 / Start column TFORM166= 'I1 ' / Fortran format TNULL166= ' ' / Null value TTYPE167= 'CNTRDCC_12' / Correlation coefficient at 12 mu / centroid position TBCOL167= 869 / Start column TFORM167= 'I4 ' / Fortran format TSCAL167= '0.1 ' / Scale by 0.1 TNULL167= ' ' / Null value TTYPE168= 'CNTRDCC_25' / Correlation coefficient at 25 mu / centroid position TBCOL168= 873 / Start column TFORM168= 'I4 ' / Fortran format TSCAL168= '0.1 ' / Scale by 0.1 TNULL168= ' ' / Null value TTYPE169= 'CNTRDCC_60' / Correlation coefficient at 60 mu / centroid position TBCOL169= 877 / Start column TFORM169= 'I4 ' / Fortran format TSCAL169= '0.1 ' / Scale by 0.1 TNULL169= ' ' / Null value TTYPE170= 'CNTRDCC_100' / Correlation coefficient at 100 mu / centroid position TBCOL170= 881 / Start column TFORM170= 'I4 ' / Fortran format TSCAL170= '0.1 ' / Scale by 0.1 TNULL170= ' ' / Null value TTYPE171= 'FRATIO_12' / Ratio of 12 mu template-fit flux density / to peak flux density TBCOL171= 885 / Start column TFORM171= 'F6.3 ' / Fortran format TNULL171= ' ' / Null value TTYPE172= 'FRATIO_25' / Ratio of 25 mu template-fit flux density / to peak flux density TBCOL172= 891 / Start column TFORM172= 'F6.3 ' / Fortran format TNULL172= ' ' / Null value TTYPE173= 'FRATIO_60' / Ratio of 60 mu template-fit flux density / to peak flux density TBCOL173= 897 / Start column TFORM173= 'F6.3 ' / Fortran format TNULL173= ' ' / Null value TTYPE174= 'FRATIO_100' / Ratio of 100 mu template-fit flux density / to peak flux density TBCOL174= 903 / Start column TFORM174= 'F6.3 ' / Fortran format TNULL174= ' ' / Null value TTYPE175= 'NOISRAT_12' / Ratio of 12 mu quantiles at 87% and 68% TBCOL175= 909 / Start column TFORM175= 'F6.3 ' / Fortran format TNULL175= ' ' / Null value TTYPE176= 'NOISRAT_25' / Ratio of 25 mu quantiles at 87% and 68% TBCOL176= 915 / Start column TFORM176= 'F6.3 ' / Fortran format TNULL176= ' ' / Null value TTYPE177= 'NOISRAT_60' / Ratio of 60 mu quantiles at 87% and 68% TBCOL177= 921 / Start column TFORM177= 'F6.3 ' / Fortran format TNULL177= ' ' / Null value TTYPE178= 'NOISRAT_100' / Ratio of 100 mu quantiles at 87% and 68% TBCOL178= 927 / Start column TFORM178= 'F6.3 ' / Fortran format TNULL178 ' ' / Null value TTYPE179= 'NOISCOR_12' / 12 mu noise correction factor TBCOL179= 933 / Start column TFORM179= 'F6.3 ' / Fortran format TNULL179= ' ' / Null value TTYPE180= 'NOISCOR_25' / 25 mu noise correction factor TBCOL180= 939 / Start column TFORM180= 'F6.3 ' / Fortran format TNULL180= ' ' / Null value TTYPE181= 'NOISCOR_60' / 60 mu noise correction factor TBCOL181= 945 / Start column TFORM181= 'F6.3 ' / Fortran format TNULL181= ' ' / Null value TTYPE182= 'NOISCOR_100' / 100 mu noise correction factor TBCOL182= 951 / Start column TFORM182= 'F6.3 ' / Fortran format TNULL182= ' ' / Null value TTYPE183= 'NPARENT_12' / 12 mu pre-rethresholding source number TBCOL183= 957 / Start column TFORM183= 'I4 ' / Fortran format TNULL183= ' ' / Null value TTYPE184= 'NPARENT_25' / 25 mu pre-rethresholding source number TBCOL184= 961 / Start column TFORM184= 'I4 ' / Fortran format TNULL184= ' ' / Null value TTYPE185= 'NPARENT_60' / 60 mu pre-rethresholding source number TBCOL185= 965 / Start column TFORM185= 'I4 ' / Fortran format TNULL185= ' ' / Null value TTYPE186= 'NPARENT_100' / 100 mu pre-rethresholding source number TBCOL186= 969 / Start column TFORM186= 'I4 ' / Fortran format TNULL186= ' ' / Null value TTYPE187= 'NCHLDRN_12' / 12 mu post-rethresholding number of / sources per parent TBCOL187= 973 / Start column TFORM187= 'I2 ' / Fortran format TNULL187= ' ' / Null value TTYPE188= 'NCHLDRN_25' / 25 mu post-rethresholding number of / sources per parent TBCOL188= 975 / Start column TFORM188= 'I2 ' / Fortran format TNULL188= ' ' / Null value TTYPE189= 'NCHLDRN_60' / 60 mu post-rethresholding number of / sources per parent TBCOL189= 977 / Start column TFORM189= 'I2 ' / Fortran format TNULL189= ' ' / Null value TTYPE190= 'NCHLDRN_100' / 100 mu post-rethresholding number of / sources per parent TBCOL190= 979 / Start column TFORM190= 'I2 ' / Fortran format TNULL190= ' ' / Null value TTYPE191= 'PROBLIN_12' / Percent probability of NCHLDRN_12 / lining up by chance TBCOL191= 981 / Start column TFORM191= 'I2 ' / Fortran format TNULL191= ' ' / Null value TTYPE192= 'PROBLIN_25' / Percent probability of NCHLDRN_25 / lining up by chance TBCOL192= 983 / Start column TFORM192= 'I2 ' / Fortran format TNULL192= ' ' / Null value TTYPE193= 'PROBLIN_60' / Percent probability of NCHLDRN_60 / lining up by chance TBCOL193= 985 / Start column TFORM193= 'I2 ' / Fortran format TNULL193= ' ' / Null value TTYPE194= 'PROBLIN_100' / Percent probability of NCHLDRN_100 / lining up by chance TBCOL194= 987 / Start column TFORM194= 'I2 ' / Fortran format TNULL194= ' ' / Null value TTYPE195= 'BMSEED ' / Seed band for bandmerger TBCOL195= 989 / Start column TFORM195= 'I1 ' / Fortran format TTYPE196= 'BMFQUAL_12' / Bandmerger 12 mu flux density quality index TBCOL196= 990 / Start column TFORM196= 'I1 ' / Fortran format TTYPE197= 'BMFQUAL_25' / Bandmerger 25 mu flux density quality index TBCOL197= 991 / Start column TFORM197= 'I1 ' / Fortran format TTYPE198= 'BMFQUAL_60' / Bandmerger 60 mu flux density quality index TBCOL198= 992 / Start column TFORM198= 'I1 ' / Fortran format TTYPE199= 'BMFQUAL_100' / Bandmerger 100 mu flux density quality index TBCOL199= 993 / Start column TFORM199= 'I1 ' / Fortran format TTYPE200= 'NBNONUL ' / Number of merged bands which are not / upper limits TBCOL200= 994 / Start column TFORM200= 'I1 ' / Fortran format TTYPE201= 'NBDETECT' / Number of merged bands which are detections TBCOL201= 995 / Start column TFORM201= 'I1 ' / Fortran format TTYPE202= 'QUALINDX_12' / Bandmerger quality index at 12 mu TBCOL202= 996 / Start column TFORM202= 'I3 ' / Fortran format TTYPE203= 'QUALINDX_25' / Bandmerger quality index at 25 mu TBCOL203= 999 / Start column TFORM203= 'I3 ' / Fortran format TTYPE204= 'QUALINDX_60' / Bandmerger quality index at 60 mu TBCOL204= 1002 / Start column TFORM204= 'I3 ' / Fortran format TTYPE205= 'QUALINDX_100' / Bandmerger quality index at 100 mu TBCOL205= 1005 / Start column TFORM205= 'I3 ' / Fortran format TTYPE206= 'BMFLAG1_12' / Bandmerger warning flag1 at 12 mu TBCOL206= 1008 / Start column TFORM206= 'I1 ' / Fortran format TNULL206= ' ' / Null value TTYPE207= 'BMFLAG1_25' / Bandmerger warning flag1 at 25 mu TBCOL207= 1009 / Start column TFORM207= 'I1 ' / Fortran format TNULL207= ' ' / Null value TTYPE208= 'BMFLAG1_60' / Bandmerger warning flag1 at 60 mu TBCOL208= 1010 / Start column TFORM208= 'I1 ' / Fortran format TNULL208= ' ' / Null value TTYPE209= 'BMFLAG1_100' / Bandmerger warning flag1 at 100 mu TBCOL209= 1011 / Start column TFORM209= 'I1 ' / Fortran format TNULL209= ' ' / Null value TTYPE210= 'BMFLAG2_12' / Bandmerger warning flag2 at 12 mu TBCOL210= 1012 / Start column TFORM210= 'I1 ' / Fortran format TNULL210= ' ' / Null value TTYPE211= 'BMFLAG2_25' / Bandmerger warning flag2 at 25 mu TBCOL211= 1013 / Start column TFORM211= 'I1 ' / Fortran format TNULL211= ' ' / Null value TTYPE212= 'BMFLAG2_60' / Bandmerger warning flag2 at 60 mu TBCOL212= 1014 / Start column TFORM212= 'I1 ' / Fortran format TNULL212= ' ' / Null value TTYPE213= 'BMFLAG2_100' / Bandmerger warning flag2 at 100 mu TBCOL213= 1015 / Start column TFORM213= 'I1 ' / Fortran format TNULL213= ' ' / Null value TTYPE214= 'BMFLAG3_12' / Bandmerger warning flag3 at 12 mu TBCOL214= 1016 / Start column TFORM214= 'I1 ' / Fortran format TNULL214= ' ' / Null value TTYPE215= 'BMFLAG3_25' / Bandmerger warning flag3 at 25 mu TBCOL215= 1017 / Start column TFORM215= 'I1 ' / Fortran format TNULL215= ' ' / Null value TTYPE216= 'BMFLAG3_60' / Bandmerger warning flag3 at 60 mu TBCOL216= 1018 / Start column TFORM216= 'I1 ' / Fortran format TNULL216= ' ' / Null value TTYPE217= 'BMFLAG3_100' / Bandmerger warning flag3 at 100 mu TBCOL217= 1019 / Start column TFORM217= 'I1 ' / Fortran format TNULL217= ' ' / Null value TTYPE218= 'BMFLAG4_12' / Bandmerger warning flag4 at 12 mu TBCOL218= 1020 / Start column TFORM218= 'I2 ' / Fortran format TNULL218= ' ' / Null value TTYPE219= 'BMFLAG4_25' / Bandmerger warning flag4 at 25 mu TBCOL219= 1022 / Start column TFORM219= 'I2 ' / Fortran format TNULL219= ' ' / Null value TTYPE220= 'BMFLAG4_60' / Bandmerger warning flag4 at 60 mu TBCOL220= 1024 / Start column TFORM220= 'I2 ' / Fortran format TNULL220= ' ' / Null value TTYPE221= 'BMFLAG4_100' / Bandmerger warning flag4 at 100 mu TBCOL221= 1026 / Start column TFORM221= 'I2 ' / Fortran format TNULL221= ' ' / Null value TTYPE222= 'BMFLAG5_12' / Bandmerger warning flag5 at 12 mu TBCOL222= 1028 / Start column TFORM222= 'I1 ' / Fortran format TNULL222= ' ' / Null value TTYPE223= 'BMFLAG5_25' / Bandmerger warning flag5 at 25 mu TBCOL223= 1029 / Start column TFORM223= 'I1 ' / Fortran format TNULL223= ' ' / Null value TTYPE224= 'BMFLAG5_60' / Bandmerger warning flag5 at 60 mu TBCOL224= 1030 / Start column TFORM224= 'I1 ' / Fortran format TNULL224= ' ' / Null value TTYPE225= 'BMFLAG5_100' / Bandmerger warning flag5 at 100 mu TBCOL225= 1031 / Start column TFORM225= 'I1 ' / Fortran format TNULL225= ' ' / Null value TTYPE226= 'BMFLAG6_12' / Bandmerger warning flag6 at 12 mu TBCOL226= 1032 / Start column TFORM226= 'I1 ' / Fortran format TNULL226= ' ' / Null value TTYPE227= 'BMFLAG6_25' / Bandmerger warning flag6 at 25 mu TBCOL227= 1033 / Start column TFORM227= 'I1 ' / Fortran format TNULL227= ' ' / Null value TTYPE228= 'BMFLAG6_60' / Bandmerger warning flag6 at 60 mu TBCOL228= 1034 / Start column TFORM228= 'I1 ' / Fortran format TNULL228= ' ' / Null value TTYPE229= 'BMFLAG6_100' / Bandmerger warning flag6 at 100 mu TBCOL229= 1035 / Start column TFORM229= 'I1 ' / Fortran format TNULL229= ' ' / Null value TTYPE230= 'COMPDIST_12' / Radial distance of 12 mu component from / centroid TBCOL230= 1036 / Start column TUNIT230= 'ARCSEC ' / Units are seconds of arc TFORM230= 'F6.2 ' / Fortran format TNULL230= ' ' / Null value TTYPE231= 'COMPDIST_25' / Radial distance of 25 mu component from / centroid TBCOL231= 1042 / Start column TUNIT231= 'ARCSEC ' / Units are seconds of arc TFORM231= 'F6.2 ' / Fortran format TNULL231= ' ' / Null value TTYPE232= 'COMPDIST_60' / Radial distance of 60 mu component from / centroid TBCOL232= 1048 / Start column TUNIT232= 'ARCSEC ' / Units are seconds of arc TFORM232= 'F6.2 ' / Fortran format TNULL232= ' ' / Null value TTYPE233= 'COMPDIST_100' / Radial distance of 100 mu component from / centroid TBCOL233= 1054 / Start column TUNIT233= 'ARCSEC ' / Units are seconds of arc TFORM233= 'F6.2 ' / Fortran format TNULL233= ' ' / Null value TTYPE234= 'COMPANGL_12' / Angle of 12 mu component from centroid TBCOL234= 1060 / Start column TUNIT234= 'DEG ' / Units are degrees East of plate y-axis TFORM234= 'F5.1 ' / Fortran format TNULL234= ' ' / Null value COMMENT COMPANGL (fields 234, 235, 236, and 237) is measured in degrees COMMENT East of the plate Y-axis. TTYPE235= 'COMPANGL_25' / Angle of 25 mu component from centroid TBCOL235= 1065 / Start column TUNIT235= 'DEG ' / Units are degrees East of plate y-axis TFORM235= 'F5.1 ' / Fortran format TNULL235= ' ' / Null value TTYPE236= 'COMPANGL_60' / Angle of 60 mu component from centroid TBCOL236= 1070 / Start column TUNIT236= 'DEG ' / Units are degrees East of plate y-axis TFORM236= 'F5.1 ' / Fortran format TNULL236= ' ' / Null value TTYPE237= 'COMPANGL_100' / Angle of 100 mu component from centroid TBCOL237= 1075 / Start column TUNIT237= 'DEG ' / Units are degrees East of plate y-axis TFORM237= 'F5.1 ' / Fortran format TNULL237= ' ' / Null value TTYPE238= 'NDUPS ' / Number of source duplicates TBCOL238= 1080 / Start column TFORM238= 'I2 ' / Fortran format TTYPE239= 'DUPKEY_A' / First duplicate source pointer TBCOL239= 1082 / Start column TFORM239= 'I7 ' / Fortran format TNULL239= ' ' / Null value TTYPE240= 'DUPKEY_B' / Second duplicate source pointer TBCOL240= 1089 / Start column TFORM240= 'I7 ' / Fortran format TNULL240= ' ' / Null value TTYPE241= 'DUPKEY_C' / Third duplicate source pointer TBCOL241= 1096 / Start column TFORM241= 'I7 ' / Fortran format TNULL241= ' ' / Null value TTYPE242= 'DUPKEY_D' / Fourth duplicate source pointer TBCOL242= 1103 / Start column TFORM242= 'I7 ' / Fortran format TNULL242= ' ' / Null value TTYPE243= 'DUPKEY_E' / Fifth duplicate source pointer TBCOL243= 1110 / Start column TFORM243= 'I7 ' / Fortran format TNULL243= ' ' / Null value TTYPE244= 'DUPKEY_F' / Sixth duplicate source pointer TBCOL244= 1117 / Start column TFORM244= 'I7 ' / Fortran format TNULL244= ' ' / Null value TTYPE245= 'DUPKEY_G' / Seventh duplicate source pointer TBCOL245= 1124 / Start column TFORM245= 'I7 ' / Fortran format TNULL245= ' ' / Null value TTYPE246= 'DUPKEY_H' / Eighth duplicate source pointer TBCOL246= 1131 / Start column TFORM246= 'I7 ' / Fortran format TNULL246= ' ' / Null value TTYPE247= 'DUPKEY_I' / Ninth duplicate source pointer TBCOL247= 1138 / Start column TFORM247= 'I7 ' / Fortran format TNULL247= ' ' / Null value TTYPE248= 'DUPKEY_J' / Tenth duplicate source pointer TBCOL248= 1145 / Start column TFORM248= 'I7 ' / Fortran format TNULL248= ' ' / Null value TTYPE249= 'DUPKEY_K' / Eleventh duplicate source pointer TBCOL249= 1152 / Start column TFORM249= 'I7 ' / Fortran format TNULL249= ' ' / Null value TTYPE250= 'DUPKEY_L' / Twelfth duplicate source pointer TBCOL250= 1159 / Start column TFORM250= 'I7 ' / Fortran format TNULL250= ' ' / Null value TTYPE251= 'DUPKEY_M' / Thirteenth duplicate source pointer TBCOL251= 1166 / Start column TFORM251= 'I7 ' / Fortran format TNULL251= ' ' / Null value TTYPE252= 'DUPKEY_N' / Fourteenth duplicate source pointer TBCOL252= 1173 / Start column TFORM252= 'I7 ' / Fortran format TNULL252= ' ' / Null value TTYPE253= 'DUPKEY_O' / Fifteenth duplicate source pointer TBCOL253= 1180 / Start column TFORM253= 'I7 ' / Fortran format TNULL253= ' ' / Null value TTYPE254= 'DUPKEY_P' / Sixteenth duplicate source pointer TBCOL254= 1187 / Start column TFORM254= 'I7 ' / Fortran format TNULL254= ' ' / Null value TTYPE255= 'DUPKEY_Q' / Seventeenth duplicate source pointer TBCOL255= 1194 / Start column TFORM255= 'I7 ' / Fortran format TNULL255= ' ' / Null value TTYPE256= 'NOVRLAP ' / Number of overlapping plates TBCOL256= 1201 / Start column TFORM256= 'I1 ' / Fortran format TTYPE257= 'LSTOVRLP_A' / First overlapping plate number TBCOL257= 1202 / Start column TFORM257= 'I4 ' / Fortran format TNULL257= ' ' / Null value TTYPE258= 'LSTOVRLP_B' / Second overlapping plate number TBCOL258= 1206 / Start column TFORM258= 'I4 ' / Fortran format TNULL258= ' ' / Null value TTYPE259= 'LSTOVRLP_C' / Third overlapping plate number TBCOL259= 1210 / Start column TFORM259= 'I4 ' / Fortran format TNULL259= ' ' / Null value TTYPE260= 'LSTOVRLP_D' / Fourth overlapping plate number TBCOL260= 1214 / Start column TFORM260= 'I4 ' / Fortran format TNULL260= ' ' / Null value TTYPE261= 'LSTOVRLP_E' / Fifth overlapping plate number TBCOL261= 1218 / Start column TFORM261= 'I4 ' / Fortran format TNULL261= ' ' / Null value TTYPE262= 'PLATNDUP_A' / Number of dups from first overlapping plate TBCOL262= 1222 / Start column TFORM262= 'I1 ' / Fortran format TNULL262= ' ' / Null value TTYPE263= 'PLATNDUP_B' / Number of dups from second overlapping plate TBCOL263= 1223 / Start column TFORM263= 'I1 ' / Fortran format TNULL263= ' ' / Null value TTYPE264= 'PLATNDUP_C' / Number of dups from third overlapping plate TBCOL264= 1224 / Start column TFORM264= 'I1 ' / Fortran format TNULL264= ' ' / Null value TTYPE265= 'PLATNDUP_D' / Number of dups from fourth overlapping plate TBCOL265= 1225 / Start column TFORM265= 'I1 ' / Fortran format TNULL265= ' ' / Null value TTYPE266= 'PLATNDUP_E' / Number of dups from fifth overlapping plate TBCOL266= 1226 / Start column TFORM266= 'I1 ' / Fortran format TNULL266= ' ' / Null value TTYPE267= 'NID ' / Number of positional associations TBCOL267= 1227 / Start column TFORM267= 'I2 ' / Fortran format TTYPE268= 'IDTYPE ' / Type of associated object (bit-encoded) TBCOL268= 1229 / Start column TFORM268= 'I2 ' / Fortran format TNULL268= ' ' / Null value COMMENT Fields 268 through 318 will be null when there are no associations. TTYPE269= 'IDFLAG1 ' / Association flag for first catalog TBCOL269= 1231 / Start column TFORM269= 'I1 ' / Fortran format TNULL269= ' ' / Null value TTYPE270= 'IDFLAG2 ' / Association flag for second catalog TBCOL270= 1232 / Start column TFORM270= 'I1 ' / Fortran format TNULL270= ' ' / Null value TTYPE271= 'IDFLAG3 ' / Association flag for third catalog TBCOL271= 1233 / Start column TFORM271= 'I1 ' / Fortran format TNULL271= ' ' / Null value TTYPE272= 'IDFLAG4 ' / Association flag for fourth catalog TBCOL272= 1234 / Start column TFORM272= 'I1 ' / Fortran format TNULL272= ' ' / Null value TTYPE273= 'IDFLAG5 ' / Association flag for fifth catalog TBCOL273= 1235 / Start column TFORM273= 'I1 ' / Fortran format TNULL273= ' ' / Null value TTYPE274= 'IDFLAG6 ' / Association flag for sixth catalog TBCOL274= 1236 / Start column TFORM274= 'I1 ' / Fortran format TNULL274= ' ' / Null value TTYPE275= 'IDFLAG7 ' / Association flag for seventh catalog TBCOL275= 1237 / Start column TFORM275= 'I1 ' / Fortran format TNULL275= ' ' / Null value TTYPE276= 'IDFLAG8 ' / Association flag for eighth catalog TBCOL276= 1238 / Start column TFORM276= 'I1 ' / Fortran format TNULL276= ' ' / Null value TTYPE277= 'IDFLAG9 ' / Association flag for ninth catalog TBCOL277= 1239 / Start column TFORM277= 'I1 ' / Fortran format TNULL277= ' ' / Null value TTYPE278= 'IDFLAG10' / Association flag for tenth catalog TBCOL278= 1240 / Start column TFORM278= 'I1 ' / Fortran format TNULL278= ' ' / Null value TTYPE279= 'IDFLAG11' / Association flag for eleventh catalog TBCOL279= 1241 / Start column TFORM279= 'I1 ' / Fortran format TNULL279= ' ' / Null value TTYPE280= 'IDFLAG12' / Association flag for twelfth catalog TBCOL280= 1242 / Start column TFORM280= 'I1 ' / Fortran format TNULL280= ' ' / Null value TTYPE281= 'IDFLAG13' / Association flag for thirteenth catalog TBCOL281= 1243 / Start column TFORM281= 'I1 ' / Fortran format TNULL281= ' ' / Null value TTYPE282= 'IDFLAG14' / Association flag for fourteenth catalog TBCOL282= 1244 / Start column TFORM282= 'I1 ' / Fortran format TNULL282= ' ' / Null value TTYPE283= 'IDFLAG15' / Association flag for fifteenth catalog TBCOL283= 1245 / Start column TFORM283= 'I1 ' / Fortran format TNULL283= ' ' / Null value TTYPE284= 'IDFLAG16' / Association flag for sixteenth catalog TBCOL284= 1246 / Start column TFORM284= 'I1 ' / Fortran format TNULL284= ' ' / Null value TTYPE285= 'IDFLAG17' / Association flag for seventeenth catalog TBCOL285= 1247 / Start column TFORM285= 'I1 ' / Fortran format TNULL285= ' ' / Null value TTYPE286= 'IDFLAG18' / Association flag for eighteenth catalog TBCOL286= 1248 / Start column TFORM286= 'I1 ' / Fortran format TNULL286= ' ' / Null value TTYPE287= 'IDFLAG19' / Association flag for ninteenth catalog TBCOL287= 1249 / Start column TFORM287= 'I1 ' / Fortran format TNULL287= ' ' / Null value TTYPE288= 'IDFLAG20' / Association flag for twentieth catalog TBCOL288= 1250 / Start column TFORM288= 'I1 ' / Fortran format TNULL288= ' ' / Null value TTYPE289= 'IDFLAG21' / Association flag for twenty-first catalog TBCOL289= 1251 / Start column TFORM289= 'I1 ' / Fortran format TNULL289= ' ' / Null value TTYPE290= 'IDFLAG22' / Association flag for twenty-second catalog TBCOL290= 1252 / Start column TFORM290= 'I1 ' / Fortran format TNULL290= ' ' / Null value TTYPE291= 'IDFLAG23' / Association flag for twenty-third catalog TBCOL291= 1253 / Start column TFORM291= 'I1 ' / Fortran format TNULL291= ' ' / Null value TTYPE292= 'IDFLAG24' / Association flag for twenty-fourth catalog TBCOL292= 1254 / Start column TFORM292= 'I1 ' / Fortran format TNULL292= ' ' / Null value TTYPE293= 'IDFLAG25' / Association flag for twenty-fifth catalog TBCOL293= 1255 / Start column TFORM293= 'I1 ' / Fortran format TNULL293= ' ' / Null value TTYPE294= 'IDFLAG26' / Association flag for twenty-sixth catalog TBCOL294= 1256 / Start column TFORM294= 'I1 ' / Fortran format TNULL294= ' ' / Null value TTYPE295= 'IDFLAG27' / Association flag for twenty-seventh catalog TBCOL295= 1257 / Start column TFORM295= 'I1 ' / Fortran format TNULL295= ' ' / Null value TTYPE296= 'IDFLAG28' / Association flag for twenty-eighth catalog TBCOL296= 1258 / Start column TFORM296= 'I1 ' / Fortran format TNULL296= ' ' / Null value TTYPE297= 'IDFLAG29' / Association flag for twenty-ninth catalog TBCOL297= 1259 / Start column TFORM297= 'I1 ' / Fortran format TNULL297= ' ' / Null value TTYPE298= 'IDFLAG30' / Association flag for thirtieth catalog TBCOL298= 1260 / Start column TFORM298= 'I1 ' / Fortran format TNULL298= ' ' / Null value TTYPE299= 'IDFLAG31' / Association flag for thirty-first catalog TBCOL299= 1261 / Start column TFORM299= 'I1 ' / Fortran format TNULL299= ' ' / Null value TTYPE300= 'IDFLAG32' / Association flag for thirty-second catalog TBCOL300= 1262 / Start column TFORM300= 'I1 ' / Fortran format TNULL300= ' ' / Null value TTYPE301= 'IDFLAG33' / Association flag for thirty-third catalog T