(Note: The first two lines following are provided to help the reader determine column numbers. They are not part of FITS headers.)
000000000111111111122222222223333333333444444444455555555556666666666777 123456789012345678901234567890123456789012345678901234567890123456789012 XTENSION= 'TABLE ' / Table extension BITPIX = 8 / Character data NAXIS = 2 / Simple 2-D matrix NAXIS1 = 80 / Number of characters per record NAXIS2 = 183145 / Number of records in the table PCOUNT = 0 / No "random" parameters GCOUNT = 1 / Only one group TFIELDS = 22 / Number of data fields per record EXTNAME = 'AGK3 ' / AGK3 Star Catalogue of Positions AUTHOR = 'Dieckvoss, W.' REFERENC= '1975, Hamburg-Bergedorf' DATE = '15/09/88' / Date FITS file verified (dd/mm/yy) HISTORY Source Catalog Reference: AGK3 Star Catalogue of Positions and Proper HISTORY Motions North of -2.5 Degrees Declination, Dieckvoss, W. (in HISTORY collaboration with H. Kox, A. Guenther, and E. Brosterhaus) 1975, HISTORY Hamburg-Bergedorf. HISTORY HISTORY A copy of "Documentation for the Machine-Readable Version of the HISTORY AGK3 Star Catalogue of Positions and Proper Motions North of -2.5 HISTORY Degrees Declination (Dieckvoss and Collaborators 1975)", Warren Jr., HISTORY W.H. 1984, NSSDC/WDC-A-R&S 84-06, should accompany any computer- HISTORY readable version of this catalog. TTYPE1 = 'AGK3 ' / AGK3 zone and sequential number TBCOL1 = 1 / Start column TFORM1 = 'A7 ' / Fortran format TTYPE2 = 'AGK3_COMP' / Component identification TBCOL2 = 8 / Start column TFORM2 = 'A1 ' / Fortran format TNULL2 = '0 ' / Null value TTYPE3 = 'PMAG ' / Photographic magnitude TBCOL3 = 9 / Start column TFORM3 = 'I3 ' / Fortran format TUNIT3 = 'mag ' / Units are magnitudes TSCAL3 = 0.1 / Scale factor TTYPE4 = 'SPTYPE ' / Spectral type from HD, Yale, or McCormick TBCOL4 = 12 / Start column TFORM4 = 'A2 ' / Fortran format TTYPE5 = 'RAH ' / Hours RA, epoch, equinox B1950 TBCOL5 = 14 / Start column TFORM5 = 'I2 ' / Fortran format TUNIT5 = 'h ' / Units are hours TTYPE6 = 'RAM ' / Minutes RA, epoch, equinox B1950 TBCOL6 = 16 / Start column TFORM6 = 'I2 ' / Fortran format TUNIT6 = 'min ' / Units are minutes of time TTYPE7 = 'RAS ' / Seconds RA, epoch, equinox B1950 TBCOL7 = 18 / Start column TFORM7 = 'I5 ' / Fortran format TUNIT7 = 's ' / Units are seconds of time TSCAL7 = 0.001 / Scale factor TTYPE8 = 'DECSIGN ' / Sign DEC, epoch, equinox B1950 TBCOL8 = 23 / Start column TFORM8 = 'A1 ' / Fortran format TTYPE9 = 'DECD ' / Degrees DEC, epoch, equinox B1950 TBCOL9 = 24 / Start column TFORM9 = 'I2 ' / Fortran format TUNIT9 = 'deg ' / Units are degrees TTYPE10 = 'DECM ' / Minutes DEC, epoch, equinox B1950 TBCOL10 = 26 / Start column TFORM10 = 'I2 ' / Fortran format TUNIT10 = 'arcmin ' / Units are minutes of arc TTYPE11 = 'DECS ' / Seconds DEC, epoch, equinox B1950 TBCOL11 = 28 / Start column TFORM11 = 'I4 ' / Fortran format TUNIT11 = 'arcsec ' / Units are seconds of arc TSCAL11 = 0.01 / Scale factor TTYPE12 = 'NUMOBS ' / Number of photog. obs. used to determine pos. TBCOL12 = 32 / Start column TFORM12 = 'I2 ' / Fortran format TTYPE13 = 'EPOCH ' / (Epoch of AGK3 position) - 1900 TBCOL13 = 34 / Start column TFORM13 = 'I4 ' / Fortran format TUNIT13 = 'yr ' / Units are years TSCAL13 = 0.01 / Scale factor TZERO13 = 1900.0 / Zero offset TTYPE14 = 'PM_RA_COSD' / Annual proper motion in RA times Cos(delta) TBCOL14 = 38 / Start column TFORM14 = 'I5 ' / Fortran format TUNIT14 = 'arcsec/yr' / Units are arcseconds per year TSCAL14 = 0.001 / Scale factor TTYPE15 = 'PM_DEC ' / Annual proper motion in DEC TBCOL15 = 43 / Start column TFORM15 = 'I5 ' / Fortran format TUNIT15 = 'arcsec/yr' / Units are arcseconds per year TSCAL15 = 0.001 / Scale factor COMMENT PM_DEC: If the calculated value for PM_RA_COSD or PM_DEC exceeded the COMMENT PM_DEC: capacity of the field, a value of "+9999" is given. TTYPE16 = 'EPOCH_DIFF' / Difference in epoch (AGK3 - AGK2) TBCOL16 = 48 / Start column TFORM16 = 'I4 ' / Fortran format TUNIT16 = 'yr ' / Units are years TSCAL16 = 0.01 / Scale factor TTYPE17 = 'BD ' / Bonner Durchmusterung number TBCOL17 = 52 / Start column TFORM17 = 'A7 ' / Fortran format TTYPE18 = 'BD_COMP ' / Numerical code for component of multiple system TBCOL18 = 59 / Start column TFORM18 = 'I1 ' / Fortran format TNULL18 = '0 ' / Null value TTYPE19 = 'DISC_SUM' / Sum of discrepancy codes, see comment TBCOL19 = 60 / Start column TFORM19 = 'I2 ' / Fortran format COMMENT DISC_SUM: The sum of discrepancy codes, or the sum of 2**V, where COMMENT DISC_SUM: V = 0 (BD number), 1 (PMAG and/or spectral type), 2 (RA of COMMENT DISC_SUM: AGK2), 3 (DEC of AGK2), 4 (RA of AGK3), 5 (DEC of AGK3). TTYPE20 = 'PM_RA ' / Annual proper motion in RA TBCOL20 = 62 / Start column TFORM20 = 'I6 ' / Fortran format TUNIT20 = 's/yr ' / Units are seconds of time per year TSCAL20 = 0.0001 / Scale factor TTYPE21 = 'RA_RESID' / Residual value in RA TBCOL21 = 68 / Start column TFORM21 = 'I6 ' / Fortran format TUNIT21 = 'arcsec ' / Units are seconds of arc TSCAL21 = 0.0001 / Scale factor TTYPE22 = 'DEC_RESID' / Residual value in DEC TBCOL22 = 74 / Start column TFORM22 = 'I6 ' / 6 Fortran format TUNIT22 = 'arcsec ' / Units are seconds of arc TSCAL22 = 0.0001 / Scale factor END
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