XTENSION= 'TABLE ' / Table extension BITPIX = 8 / Character data NAXIS = 2 / Simple 2-D matrix NAXIS1 = 197 / Number of characters per record NAXIS2 = 9110 / Number of records in the table PCOUNT = 0 / No "random" parameters GCOUNT = 1 / Only one group TFIELDS = 54 / Number of data fields per record EXTNAME = 'BSC5_Data' / Bright Star Catalog, 5th Ed. (prelim), data AUTHOR = 'Hoffleit & Warren' REFERENC= '1991, Yale U Obs.' DATE = '01/08/91' / Date FITS table verified (dd/mm/yy) TTYPE1 = 'HR ' / Harvard Revised (HR) = Bright Star (BS) number TBCOL1 = 1 / Start column TFORM1 = 'I4 ' / Fortran format TTYPE2 = 'Name ' / Name, generally Bayer and/or Flamsteed name TBCOL2 = 5 / Start column TFORM2 = 'A10 ' / Fortran format TTYPE3 = 'DM_Cat ' / Durchmusterung catalog ID, 'BD', 'CD', 'CP' TBCOL3 = 15 / Start column TFORM3 = 'A2 ' / Fortran format TTYPE4 = 'DM ' / Durchmusterung catalog number, SZZNNNNN TBCOL4 = 17 / Start column TFORM4 = 'A9 ' / Fortran format TNULL4 = ' ' / Null value TTYPE5 = 'HD ' / Henry Draper Catalog (HD) number TBCOL5 = 26 / Start column TFORM5 = 'I6 ' / Fortran format TTYPE6 = 'SAO ' / SAO Catalog number TBCOL6 = 32 / Start column TFORM6 = 'I6 ' / Fortran format TTYPE7 = 'FK5 ' / FK5 star number TBCOL7 = 38 / Start column TFORM7 = 'I4 ' / Fortran format TTYPE8 = 'IR_Flag ' / "I" if infrared source TBCOL8 = 42 / Start column TFORM8 = 'A1 ' / Fortran format TNULL8 = ' ' / Null value TTYPE9 = 'IR_Flag_Ref' / Coded reference for infrared source TBCOL9 = 43 / Start column TFORM9 = 'A1 ' / Fortran format COMMENT IR_Flag_Ref: Blank if from NASA merged Infrared Catalogue, Schmitz et COMMENT IR_Flag_Ref: al. 1978; ' if Engles et al. 1982). ':' if uncertain id. TTYPE10 = 'Multiple' / Double or multiple-star code, see comment TBCOL10 = 44 / Start column TFORM10 = 'A1 ' / Fortran format COMMENT Multiple: 'W'=Worley (1978) update of the IDS; 'D'=Duplicity discovered COMMENT Multiple: by occulation; 'S'=Duplicity discovered by speckle COMMENT Multiple: interferometry. TTYPE11 = 'ADS ' / Aitken's Double Star Catalog (ADS) designation TBCOL11 = 45 / Start column TFORM11 = 'A5 ' / Fortran format TTYPE12 = 'ADS_Comp' / ADS number components TBCOL12 = 50 / Start column TFORM12 = 'A2 ' / Fortran format TNULL12 = ' ' / Null value TTYPE13 = 'Var_ID ' / Variable star identification TBCOL13 = 42 / Start column TFORM13 = 'A9 ' / Fortran format TNULL13 = ' ' / Null value TTYPE14 = 'RAH_1900' / Hours RA, equinox B1900, epoch 1900.0 TBCOL14 = 61 / Start column TFORM14 = 'I2 ' / Fortran format TUNIT14 = 'h ' / Units are hours TTYPE15 = 'RAM_1900' / Minutes RA, equinox B1900, epoch 1900.0 TBCOL15 = 63 / Start column TFORM15 = 'I2 ' / Fortran format TUNIT15 = 'min ' / Units are minutes of time TTYPE16 = 'RAS_1900' / Seconds RA, equinox B1900, epoch 1900.0 TBCOL16 = 65 / Start column TFORM16 = 'F4.1 ' / Fortran format TUNIT16 = 's ' / Units are seconds of time TTYPE17 = 'DecSign_1900' / Sign Dec, equinox B1900, epoch 1900.0 TBCOL17 = 69 / Start column TFORM17 = 'A1 ' / Fortran format TTYPE18 = 'DecD_1900' / Degrees Dec, equinox B1900, epoch 1900.0 TBCOL18 = 70 / Start column TFORM18 = 'I2 ' / Fortran format TUNIT18 = 'deg ' / Units are degrees TTYPE19 = 'DecM_1900' / Minutes Dec, equinox B1900, epoch 1900.0 TBCOL19 = 72 / Start column TFORM19 = 'I2 ' / Fortran format TUNIT19 = 'arcmin ' / Units are minutes of arc TTYPE20 = 'DecS_1900' / Seconds Dec, equinox B1900, epoch 1900.0 TBCOL20 = 74 / Start column TFORM20 = 'I2 ' / Fortran format TUNIT20 = 'arcsec ' / Units are seconds of arc TTYPE21 = 'RAH ' / Hours RA, equinox J2000, epoch 2000.0 TBCOL21 = 76 / Start column TFORM21 = 'I2 ' / Fortran format TUNIT21 = 'h ' / Units are hours TTYPE22 = 'RAM ' / Minutes RA, equinox J2000, epoch 2000.0 TBCOL22 = 78 / Start column TFORM22 = 'I2 ' / Fortran format TUNIT22 = 'min ' / Units are minutes of time TTYPE23 = 'RAS ' / Seconds RA, equinox J2000, epoch 2000.0 TBCOL23 = 80 / Start column TFORM23 = 'F4.1 ' / Fortran format TUNIT23 = 's ' / Units are seconds of time TTYPE24 = 'DecSign ' / Sign Dec, equinox J2000, epoch 2000.0 TBCOL24 = 84 / Start column TFORM24 = 'A1 ' / Fortran format TTYPE25 = 'DecD ' / Degrees Dec, equinox J2000, epoch 2000.0 TBCOL25 = 85 / Start column TFORM25 = 'I2 ' / Fortran format TUNIT25 = 'deg ' / Units are degrees TTYPE26 = 'DecM ' / Minutes Dec, equinox J2000, epoch 2000.0 TBCOL26 = 87 / Start column TFORM26 = 'I2 ' / Fortran format TUNIT26 = 'arcmin ' / Units are minutes of arc TTYPE27 = 'DecS ' / Seconds Dec, equinox J2000, epoch 2000.0 TBCOL27 = 89 / Start column TFORM27 = 'I2 ' / Fortran format TUNIT27 = 'arcsec ' / Units are seconds of arc TTYPE28 = 'GLon ' / Galactic longitude TBCOL28 = 91 / Start column TFORM28 = 'F6.2 ' / Fortran format TUNIT28 = 'deg ' / Units are degrees TTYPE29 = 'GLat ' / Galactic latitude TBCOL29 = 97 / Start column TFORM29 = 'F6.2 ' / Fortran format TUNIT29 = 'deg ' / Units are degrees TTYPE30 = 'V ' / Visual magnitude TBCOL30 = 103 / Start column TFORM30 = 'F5.2 ' / Fortran format TUNIT30 = 'mag ' / Units are magnitudes TTYPE31 = 'V_Code ' / Visual magnitude code TBCOL31 = 108 / Start column TFORM31 = 'A1 ' / Fortran format COMMENT V_Code: ' '= V on UBV Johnson system; 'R'= HR magnitudes reduced to the COMMENT V_Code: UBV system; 'H'= original HR magnitude. TTYPE32 = 'V_Unc ' / ':'=uncertain V; '?'=questionable V TBCOL32 = 109 / Start column TFORM32 = 'A1 ' / Fortran format TTYPE33 = 'B_V ' / B-V color in the UBV system TBCOL33 = 110 / Start column TFORM33 = 'F5.2 ' / Fortran format TUNIT33 = 'mag ' / Units are magnitudes TNULL33 = ' ' / Null value TTYPE34 = 'B_V_Unc ' / ':'=uncertain B-V; '?'=questionable B-V TBCOL34 = 115 / Start column TFORM34 = 'A1 ' / Fortran format TTYPE35 = 'U_B ' / U-B color in the UBV system TBCOL35 = 116 / Start column TFORM35 = 'F5.2 ' / Fortran format TUNIT35 = 'mag ' / Units are magnitudes TNULL35 = ' ' / Null value TTYPE36 = 'U_B_Unc ' / ':'=uncertain U-B; '?'=questionable U-B TBCOL36 = 121 / Start column TFORM36 = 'A1 ' / Fortran format TTYPE37 = 'R_I ' / R-I in system specified by R_I_Code TBCOL37 = 122 / Start column TFORM37 = 'F5.2 ' / Fortran format TUNIT37 = 'mag ' / Units are magnitudes TNULL37 = ' ' / Null value TTYPE38 = 'R_I_Code' / Code for R-I system TBCOL38 = 127 / Start column TFORM38 = 'A1 ' / Fortran format TTYPE39 = 'SpType ' / Spectral type TBCOL39 = 128 / Start column TFORM39 = 'A20 ' / Fortran format TTYPE40 = 'SpType_Code' / Spectral type code TBCOL40 = 148 / Start column TFORM40 = 'A1 ' / Fortran format TTYPE41 = 'PM_RA ' / Annual proper motion in RA J2000, FK5 system TBCOL41 = 149 / Start column TFORM41 = 'F6.3 ' / Fortran format TUNIT41 = 'arcsec/yr' / Units are seconds of arc per year TTYPE42 = 'PM_Dec ' / Annual proper motion in Dec J2000, FK5 system TBCOL42 = 155 / Start column TFORM42 = 'F6.3 ' / Fortran format TUNIT42 = 'arcsec/yr' / Units are seconds of arc per year TTYPE43 = 'Par_Code' / "D" if dynamical parallax, otherwise trig. par. TBCOL43 = 161 / Start column TFORM43 = 'A1 ' / Fortran format TNULL43 = ' ' / Null value TTYPE44 = 'Parallax' / Trigonometric parallax unless Par_Code="D" TBCOL44 = 162 / Start column TFORM44 = 'F5.3 ' / Fortran format TUNIT44 = 'arcsec ' / Units are seconds of arc TNULL44 = ' ' / Null value TTYPE45 = 'RadVel ' / Line of sight velocity (helio.) TBCOL45 = 167 / Start column TFORM45 = 'I4 ' / Fortran format TUNIT45 = 'km/s ' / Units are kilometers per second TNULL45 = ' ' / Null value TTYPE46 = 'RadVel_Comm' / Radial velocity comments TBCOL46 = 171 / Start column TFORM46 = 'A4 ' / Fortran format TNULL46 = ' ' / Null value COMMENT RadVel_Comm: 'V' or 'V?'=variable or suspected variable radial velocity; COMMENT RadVel_Comm: 'SB', 'SB1', 'SB2'=spectroscopic binaries, single or double COMMENT RadVel_Comm: lined spectra; 'O'= orbital data available. TTYPE47 = 'RotVel_Comm' / Rotational vel. descriptive chararacters TBCOL47 = 175 / Start column TFORM47 = 'A2 ' / Fortran format TNULL47 = ' ' / Null value TTYPE48 = 'RotVel ' / Rotational velocity, v sin i TBCOL48 = 177 / Start column TFORM48 = 'I3 ' / Fortran format TUNIT48 = 'km/s ' / Units are kilometers per second TNULL48 = ' ' / Null value TTYPE49 = 'RotVel_Unc' / ":" if rotational velocity uncertain TBCOL49 = 180 / Start column TFORM49 = 'A1 ' / Fortran format TNULL49 = ' ' / Null value TTYPE50 = 'Mult_MDiff' / Magnitude diff. of double, or brightest mult. TBCOL50 = 181 / Start column TFORM50 = 'F4.1 ' / Fortran format TUNIT50 = 'mag ' / Units are magnitudes TNULL50 = ' ' / Null value TTYPE51 = 'Mult_Sep' / Separation of components in Mult_MDiff TBCOL51 = 185 / Start column TFORM51 = 'F6.1 ' / Fortran format TUNIT51 = 'arcsec ' / Units are seconds of arc TNULL51 = ' ' / Null value TTYPE52 = 'Mult_ID ' / Identifications of components in Mult_MDiff TBCOL52 = 191 / Start column TFORM52 = 'A4 ' / Fortran format TNULL52 = ' ' / Null value COMMENT Mult_ID: 'O' if occultation binary. TTYPE53 = 'Mult_Cnt' / Number of components assigned to a multiple TBCOL53 = 195 / Start column TFORM53 = 'I2 ' / Fortran format TNULL53 = ' ' / Null value TTYPE54 = 'Note_Flag' / "*" if there is a note in table BSC5_Rem TBCOL54 = 197 / Start column TFORM54 = 'A1 ' / Fortran format TNULL54 = ' ' / Null value END