General description: This file contains the values of [Fe/H], log(g), and Teff computed with various methods by the SSPP pipeline.
Naming convention: ssppOut-pppp-mmmmm.fits, where pppp is a 4-digit plate number, and mmmmm is a 5-digit MJD.
Approximate size: 400 kbytes.
File type: FITS
Read by products:
Written by products: sspp
Required header keywords:
XTENSION= 'BINTABLE' /Written by IDL: Wed Nov 5 10:25:54 2008 BITPIX = 8 / NAXIS = 2 /Binary table NAXIS1 = 583 /Number of bytes per row NAXIS2 = 640 /Number of rows PCOUNT = 0 /Random parameter count GCOUNT = 1 /Group count TFIELDS = 162 /Number of columns SSPP_VER= 'V_SSPPDR7.3' /Version of the SSPP CREATION= 'Wed Nov 5 15:25:54 2008' /Creation Date SPPRERUN= '101 ' /Rerun number for SSPP
Optional header keywords: none
Required column names:
TFORM1 = 'J ' /Integer*4 (long integer) TTYPE1 = 'MJD ' / Modified Julian Date TFORM2 = 'I ' /Integer*2 (short integer) TTYPE2 = 'PLATE ' / Plate number TFORM3 = 'I ' /Integer*2 (short integer) TTYPE3 = 'FIBER ' / Fiber number TFORM4 = '3A ' /Character string TTYPE4 = 'PRIM_TARGET ' / Initial target type TFORM5 = '4A ' /Character string TTYPE5 = 'SPECTYPE_HAMMER ' / Spectral Type from HAMMER program TFORM6 = '3A ' /Character string TTYPE6 = 'SPECTYPE_ELODIE ' / Spectral Type from ELODIE templates TFORM7 = '4A ' /Character string TTYPE7 = 'FLAG ' / Flag with five letters, nnnnn for a normal star TFORM8 = 'E ' /Real*4 (floating point) TTYPE8 = 'TEFF_ADOP ' / Adopted Teff [K] TFORM9 = 'I ' /Integer*2 (short integer) TTYPE9 = 'TEFF_ADOP_N ' / Number of estimators used [K] TFORM10 = 'E ' /Real*4 (floating point) TTYPE10 = 'TEFF_ADOP_UNC ' / Error in the adopted temperature [K] TFORM11 = 'E ' /Real*4 (floating point) TTYPE11 = 'TEFF_HA24 ' / Teff estimate from HA24 [K] TFORM12 = 'E ' /Real*4 (floating point) TTYPE12 = 'TEFF_HD24 ' / Teff estimate from HD24 [K] TFORM13 = 'E ' /Real*4 (floating point) TTYPE13 = 'TEFF_TK ' / Teff estimate from T_Kurucz [K] TFORM14 = 'E ' /Real*4 (floating point) TTYPE14 = 'TEFF_TG ' / Teff estimate from T_Girardi [K] TFORM15 = 'E ' /Real*4 (floating point) TTYPE15 = 'TEFF_TI ' / Teff estimate from T_Iveciz [K] TFORM16 = 'E ' /Real*4 (floating point) TTYPE16 = 'TEFF_NGS1 ' / Teff estimate from NGS1 [K] TFORM17 = 'E ' /Real*4 (floating point) TTYPE17 = 'TEFF_ANNSR ' / Teff estimate from ANNSR [K] TFORM18 = 'E ' /Real*4 (floating point) TTYPE18 = 'TEFF_ANNRR ' / Teff estimate from ANNRR [K] TFORM19 = 'E ' /Real*4 (floating point) TTYPE19 = 'TEFF_WBG ' / Teff estimate from WBG [K] TFORM20 = 'E ' /Real*4 (floating point) TTYPE20 = 'TEFF_K24 ' / Teff estimate from k24 [K] TFORM21 = 'E ' /Real*4 (floating point) TTYPE21 = 'TEFF_KI13 ' / Teff estimate from ki13 [K] TFORM22 = 'I ' /Integer*2 (short integer) TTYPE22 = 'TEFF_HA24_IND ' / Indicator variable TFORM23 = 'I ' /Integer*2 (short integer) TTYPE23 = 'TEFF_HD24_IND ' / Indicator variable TFORM24 = 'I ' /Integer*2 (short integer) TTYPE24 = 'TEFF_TK_IND ' / Indicator variable TFORM25 = 'I ' /Integer*2 (short integer) TTYPE25 = 'TEFF_TG_IND ' / Indicator variable TFORM26 = 'I ' /Integer*2 (short integer) TTYPE26 = 'TEFF_TI_IND ' / Indicator variable TFORM27 = 'I ' /Integer*2 (short integer) TTYPE27 = 'TEFF_NGS1_IND ' / Indicator variable TFORM28 = 'I ' /Integer*2 (short integer) TTYPE28 = 'TEFF_ANNSR_IND ' / Indicator variable TFORM29 = 'I ' /Integer*2 (short integer) TTYPE29 = 'TEFF_ANNRR_IND ' / Indicator variable TFORM30 = 'I ' /Integer*2 (short integer) TTYPE30 = 'TEFF_WBG_IND ' / Indicator variable TFORM31 = 'I ' /Integer*2 (short integer) TTYPE31 = 'TEFF_K24_IND ' / Indicator variable TFORM32 = 'I ' /Integer*2 (short integer) TTYPE32 = 'TEFF_KI13_IND ' / Indicator variable TFORM33 = 'E ' /Real*4 (floating point) TTYPE33 = 'TEFF_HA24_UNC ' / Error in Teff estimate from HA24 [K] TFORM34 = 'E ' /Real*4 (floating point) TTYPE34 = 'TEFF_HD24_UNC ' / Error in Teff estimate from HD24 [K] TFORM35 = 'E ' /Real*4 (floating point) TTYPE35 = 'TEFF_TK_UNC ' / Error in Teff estimate from T_Kurucz [K] TFORM36 = 'E ' /Real*4 (floating point) TTYPE36 = 'TEFF_TG_UNC ' / Error in Teff estimate from T_Girardi [K] TFORM37 = 'E ' /Real*4 (floating point) TTYPE37 = 'TEFF_TI_UNC ' / Error in Teff estimate from T_Iveciz [K] TFORM38 = 'E ' /Real*4 (floating point) TTYPE38 = 'TEFF_NGS1_UNC ' / Error in Teff estimate from NGS1 [K] TFORM39 = 'E ' /Real*4 (floating point) TTYPE39 = 'TEFF_ANNSR_UNC ' / Error in Teff estimate from ANNSR [K] TFORM40 = 'E ' /Real*4 (floating point) TTYPE40 = 'TEFF_ANNRR_UNC ' / Error in Teff estimate from ANNRR [K] TFORM41 = 'E ' /Real*4 (floating point) TTYPE41 = 'TEFF_WBG_UNC ' / Error in Teff estimate from WBG [K] TFORM42 = 'E ' /Real*4 (floating point) TTYPE42 = 'TEFF_K24_UNC ' / Error in Teff estimate from k24 [K] TFORM43 = 'E ' /Real*4 (floating point) TTYPE43 = 'TEFF_KI13_UNC ' / Error in Teff estimate from ki13 [K] TFORM44 = 'E ' /Real*4 (floating point) TTYPE44 = 'LOGG_ADOP ' / Adopted log g [dex] TFORM45 = 'I ' /Integer*2 (short integer) TTYPE45 = 'LOGG_ADOP_N ' / Number of log g estimators used [dex] TFORM46 = 'E ' /Real*4 (floating point) TTYPE46 = 'LOGG_ADOP_UNC ' / Error in the adopted log g [dex] TFORM47 = 'E ' /Real*4 (floating point) TTYPE47 = 'LOGG_NGS2 ' / log g estimate from NGS2 [dex] TFORM48 = 'E ' /Real*4 (floating point) TTYPE48 = 'LOGG_NGS1 ' / log g estimate from NGS1 [dex] TFORM49 = 'E ' /Real*4 (floating point) TTYPE49 = 'LOGG_ANNSR ' / log g estimate from ANNSR [dex] TFORM50 = 'E ' /Real*4 (floating point) TTYPE50 = 'LOGG_ANNRR ' / log g estimate from ANNRR [dex] TFORM51 = 'E ' /Real*4 (floating point) TTYPE51 = 'LOGG_CAI1 ' / log g estimate from CaI1 [dex] TFORM52 = 'E ' /Real*4 (floating point) TTYPE52 = 'LOGG_CAI2 ' / log g estimate from CaI2 [dex] TFORM53 = 'E ' /Real*4 (floating point) TTYPE53 = 'LOGG_MGH ' / log g estimate from MgH [dex] TFORM54 = 'E ' /Real*4 (floating point) TTYPE54 = 'LOGG_WBG ' / log g estimate from WBG [dex] TFORM55 = 'E ' /Real*4 (floating point) TTYPE55 = 'LOGG_K24 ' / log g estimate from k24 [dex] TFORM56 = 'E ' /Real*4 (floating point) TTYPE56 = 'LOGG_KI13 ' / log g estimate from ki13 [dex] TFORM57 = 'I ' /Integer*2 (short integer) TTYPE57 = 'LOGG_NGS2_IND ' / Indicator variable TFORM58 = 'I ' /Integer*2 (short integer) TTYPE58 = 'LOGG_NGS1_IND ' / Indicator variable TFORM59 = 'I ' /Integer*2 (short integer) TTYPE59 = 'LOGG_ANNSR_IND ' / Indicator variable TFORM60 = 'I ' /Integer*2 (short integer) TTYPE60 = 'LOGG_ANNRR_IND ' / Indicator variable TFORM61 = 'I ' /Integer*2 (short integer) TTYPE61 = 'LOGG_CAI1_IND ' / Indicator variable TFORM62 = 'I ' /Integer*2 (short integer) TTYPE62 = 'LOGG_CAI2_IND ' / Indicator variable TFORM63 = 'I ' /Integer*2 (short integer) TTYPE63 = 'LOGG_MGH_IND ' / Indicator variable TFORM64 = 'I ' /Integer*2 (short integer) TTYPE64 = 'LOGG_WBG_IND ' / Indicator variable TFORM65 = 'I ' /Integer*2 (short integer) TTYPE65 = 'LOGG_K24_IND ' / Indicator variable TFORM66 = 'I ' /Integer*2 (short integer) TTYPE66 = 'LOGG_KI13_IND ' / Indicator variable TFORM67 = 'E ' /Real*4 (floating point) TTYPE67 = 'LOGG_NGS2_UNC ' / Error in log g estimate from NGS2 [dex] TFORM68 = 'E ' /Real*4 (floating point) TTYPE68 = 'LOGG_NGS1_UNC ' / Error in log g estimate from NGS1 [dex] TFORM69 = 'E ' /Real*4 (floating point) TTYPE69 = 'LOGG_ANNSR_UNC ' / Error in log g estimate from ANNSR [dex] TFORM70 = 'E ' /Real*4 (floating point) TTYPE70 = 'LOGG_ANNRR_UNC ' / Error in log g estimate from ANNRR [dex] TFORM71 = 'E ' /Real*4 (floating point) TTYPE71 = 'LOGG_CAI1_UNC ' / Error in log g estimate from CaI1 [dex] TFORM72 = 'E ' /Real*4 (floating point) TTYPE72 = 'LOGG_CAI2_UNC ' / Error in log g estimate from CaI2 [dex] TFORM73 = 'E ' /Real*4 (floating point) TTYPE73 = 'LOGG_MGH_UNC ' / Error in log g estimate from MgH [dex] TFORM74 = 'E ' /Real*4 (floating point) TTYPE74 = 'LOGG_WBG_UNC ' / Error in log g estimate from WBG [dex] TFORM75 = 'E ' /Real*4 (floating point) TTYPE75 = 'LOGG_K24_UNC ' / Error in log g estimate from k24 [dex] TFORM76 = 'E ' /Real*4 (floating point) TTYPE76 = 'LOGG_KI13_UNC ' / Error in log g estimate from ki13 [dex] TFORM77 = 'E ' /Real*4 (floating point) TTYPE77 = 'FEH_ADOP ' / Adopted [Fe/H] [dex] TFORM78 = 'I ' /Integer*2 (short integer) TTYPE78 = 'FEH_ADOP_N ' / Number of estimators TFORM79 = 'E ' /Real*4 (floating point) TTYPE79 = 'FEH_ADOP_UNC ' / Error in the adopted [Fe/H] [dex] TFORM80 = 'E ' /Real*4 (floating point) TTYPE80 = 'FEH_NGS2 ' / [Fe/H] estimate from NGS2 [dex] TFORM81 = 'E ' /Real*4 (floating point) TTYPE81 = 'FEH_NGS1 ' / [Fe/H] estimate from NGS1 [dex] TFORM82 = 'E ' /Real*4 (floating point) TTYPE82 = 'FEH_ANNSR ' / [Fe/H] estimate from ANNSR [dex] TFORM83 = 'E ' /Real*4 (floating point) TTYPE83 = 'FEH_ANNRR ' / [Fe/H] estimate from ANNRR [dex] TFORM84 = 'E ' /Real*4 (floating point) TTYPE84 = 'FEH_CAIIK1 ' / [Fe/H] estimate from CaIIK1 [dex] TFORM85 = 'E ' /Real*4 (floating point) TTYPE85 = 'FEH_CAIIK2 ' / [Fe/H] estimate from CaIIK2 [dex] TFORM86 = 'E ' /Real*4 (floating point) TTYPE86 = 'FEH_CAIIK3 ' / [Fe/H] estimate from CaIIK3 [dex] TFORM87 = 'E ' /Real*4 (floating point) TTYPE87 = 'FEH_ACF ' / [Fe/H] estimate from ACF [dex] TFORM88 = 'E ' /Real*4 (floating point) TTYPE88 = 'FEH_CAIIT ' / [Fe/H] estimate from CaIIT [dex] TFORM89 = 'E ' /Real*4 (floating point) TTYPE89 = 'FEH_WBG ' / [Fe/H] estimate from WBG [dex] TFORM90 = 'E ' /Real*4 (floating point) TTYPE90 = 'FEH_K24 ' / [Fe/H] estimate from k24 [dex] TFORM91 = 'E ' /Real*4 (floating point) TTYPE91 = 'FEH_KI13 ' / [Fe/H] estimate from ki13 [dex] TFORM92 = 'I ' /Integer*2 (short integer) TTYPE92 = 'FEH_NGS2_IND ' / Indicator variable TFORM93 = 'I ' /Integer*2 (short integer) TTYPE93 = 'FEH_NGS1_IND ' / Indicator variable TFORM94 = 'I ' /Integer*2 (short integer) TTYPE94 = 'FEH_ANNSR_IND ' / Indicator variable TFORM95 = 'I ' /Integer*2 (short integer) TTYPE95 = 'FEH_ANNRR_IND ' / Indicator variable TFORM96 = 'I ' /Integer*2 (short integer) TTYPE96 = 'FEH_CAIIK1_IND ' / Indicator variable TFORM97 = 'I ' /Integer*2 (short integer) TTYPE97 = 'FEH_CAIIK2_IND ' / Indicator variable TFORM98 = 'I ' /Integer*2 (short integer) TTYPE98 = 'FEH_CAIIK3_IND ' / Indicator variable TFORM99 = 'I ' /Integer*2 (short integer) TTYPE99 = 'FEH_ACF_IND ' / Indicator variable TFORM100= 'I ' /Integer*2 (short integer) TTYPE100= 'FEH_CAIIT_IND ' / Indicator variable TFORM101= 'I ' /Integer*2 (short integer) TTYPE101= 'FEH_WBG_IND ' / Indicator variable TFORM102= 'I ' /Integer*2 (short integer) TTYPE102= 'FEH_K24_IND ' / Indicator variable TFORM103= 'I ' /Integer*2 (short integer) TTYPE103= 'FEH_KI13_IND ' / Indicator variable TFORM104= 'E ' /Real*4 (floating point) TTYPE104= 'FEH_NGS2_UNC ' / Error in [Fe/H] estimate from NGS2 [dex] TFORM105= 'E ' /Real*4 (floating point) TTYPE105= 'FEH_NGS1_UNC ' / Error in [Fe/H] estimate from NGS1 [dex] TFORM106= 'E ' /Real*4 (floating point) TTYPE106= 'FEH_ANNSR_UNC ' / Error in [Fe/H] estimate from ANNSR [dex] TFORM107= 'E ' /Real*4 (floating point) TTYPE107= 'FEH_ANNRR_UNC ' / Error in [Fe/H] estimate from ANNRR [dex] TFORM108= 'E ' /Real*4 (floating point) TTYPE108= 'FEH_CAIIK1_UNC ' / Error in [Fe/H] estiimate from CaIIK1 [dex] TFORM109= 'E ' /Real*4 (floating point) TTYPE109= 'FEH_CAIIK2_UNC ' / Error in [Fe/H] estimate from CaIIK2 [dex] TFORM110= 'E ' /Real*4 (floating point) TTYPE110= 'FEH_CAIIK3_UNC ' / Error in [Fe/H] estimate from CaIIK3 [dex] TFORM111= 'E ' /Real*4 (floating point) TTYPE111= 'FEH_ACF_UNC ' / Error in [Fe/H] estimate from ACF [dex] TFORM112= 'E ' /Real*4 (floating point) TTYPE112= 'FEH_CAIIT_UNC ' / Error in [Fe/H] estimate from CaIIT [dex] TFORM113= 'E ' /Real*4 (floating point) TTYPE113= 'FEH_WBG_UNC ' / Error in [Fe/H] estimate from WBG [dex] TFORM114= 'E ' /Real*4 (floating point) TTYPE114= 'FEH_K24_UNC ' / Error in [Fe/H] estimate from k24 [dex] TFORM115= 'E ' /Real*4 (floating point) TTYPE115= 'FEH_KI13_UNC ' / Error in [Fe/H] estimate from ki13 [dex] TFORM116= 'E ' /Real*4 (floating point) TTYPE116= 'AFE ' / [alpha/Fe] estimate from NGS2 [dex] TFORM117= 'I ' /Integer*2 (short integer) TTYPE117= 'AFE_IND ' / Indicator variable TFORM118= 'E ' /Real*4 (floating point) TTYPE118= 'AFE_UNC ' / Error in [alpha/Fe] estimate from NGS2 [dex] TFORM119= 'E ' /Real*4 (floating point) TTYPE119= 'DIST_DWARF ' / Dwarf distance in kpc by Beers et al. (2000) [kpc] TFORM120= 'E ' /Real*4 (floating point) TTYPE120= 'DIST_TO ' / Turnoff distance in kpc by Beers et al. (2000) [kpc] TFORM121= 'E ' /Real*4 (floating point) TTYPE121= 'DIST_GIANT ' / Giant distance in kpc by Beers et al. (2000) [kpc] TFORM122= 'E ' /Real*4 (floating point) TTYPE122= 'DIST_AGB ' / AGB distance in kpc by Beers et al. (2000) [kpc] TFORM123= 'E ' /Real*4 (floating point) TTYPE123= 'DIST_FHB ' / FHB distance in kpc by Beers et al. (2000) [kpc] TFORM124= 'E ' /Real*4 (floating point) TTYPE124= 'DIST_AP ' / Distance in kpc by Allende Prieto et al. (2006) [kpc] TFORM125= 'E ' /Real*4 (floating point) TTYPE125= 'DIST_Z ' / Distance (z) from the Galactic plane [kpc] TFORM126= '5A ' /Character string TTYPE126= 'RV_FLAG ' / Radial velocity flag TFORM127= 'E ' /Real*4 (floating point) TTYPE127= 'RV_ADOP ' / Adopted heliocentric radial velocity [km/s] TFORM128= 'E ' /Real*4 (floating point) TTYPE128= 'RV_ADOP_UNC ' / Error in the adopted heliocentric RV [km/s] TFORM129= 'E ' /Real*4 (floating point) TTYPE129= 'RV_CAL ' / Calculated radial velocity [km/s] TFORM130= 'E ' /Real*4 (floating point) TTYPE130= 'RV_CAL_UNC ' / Error in the calculated radial velocity [km/s] TFORM131= 'E ' /Real*4 (floating point) TTYPE131= 'RV_BS ' / Radial velocity from SDSS templates [km/s] TFORM132= 'E ' /Real*4 (floating point) TTYPE132= 'RV_BS_UNC ' / Error in RV_BS [km/s] TFORM133= 'E ' /Real*4 (floating point) TTYPE133= 'RV_ELODIE ' / Radial velocity from ELODIE template [km/s] TFORM134= 'E ' /Real*4 (floating point) TTYPE134= 'RV_ELODIE_UNC ' / Error in RV_ELODIE [km/s] TFORM135= 'E ' /Real*4 (floating point) TTYPE135= 'RV_GSR ' / Galactocentric radial velocity [km/s] TFORM136= 'E ' /Real*4 (floating point) TTYPE136= 'RV_GSR_UNC ' / Error in galactocentric radial velocity [km/s] TFORM137= 'E ' /Real*4 (floating point) TTYPE137= 'V_MAG ' / V magnitude from V = g - 0.561(g-r) - 0.004 TFORM138= 'E ' /Real*4 (floating point) TTYPE138= 'BV ' / B-V color from B-V = 0.916(g-r) + 0.187 [mag] TFORM139= 'E ' /Real*4 (floating point) TTYPE139= 'BV_BALMER ' / B-V color predicted color from Balmer lines [mag] TFORM140= 'E ' /Real*4 (floating point) TTYPE140= 'GR_PREDICT ' / Adopted g-r color prediction [mag] TFORM141= 'E ' /Real*4 (floating point) TTYPE141= 'GR_HA24 ' / g-r color prediction from H alpha line (24 A widths) [mag] TFORM142= 'E ' /Real*4 (floating point) TTYPE142= 'GR_HD24 ' / g-r color prediction from H delta line (24 A widths) [mag] TFORM143= 'E ' /Real*4 (floating point) TTYPE143= 'GR_HP ' / g-r color prediction from half power point [mag] TFORM144= 'E ' /Real*4 (floating point) TTYPE144= 'G_MAG ' / Reddening corrected g magnitude [mag] TFORM145= 'E ' /Real*4 (floating point) TTYPE145= 'UG ' / Reddening corrected u-g color [mag] TFORM146= 'E ' /Real*4 (floating point) TTYPE146= 'GR ' / Reddening corrected g-r color [mag] TFORM147= 'E ' /Real*4 (floating point) TTYPE147= 'RI ' / Reddening corrected r-i color [mag] TFORM148= 'E ' /Real*4 (floating point) TTYPE148= 'IZ ' / Reddening corrected i-z color [mag] TFORM149= 'E ' /Real*4 (floating point) TTYPE149= 'U_MAG_UNC ' / Error in u mag in PSF [mag] TFORM150= 'E ' /Real*4 (floating point) TTYPE150= 'G_MAG_UNC ' / Error in g mag in PSF [mag] TFORM151= 'E ' /Real*4 (floating point) TTYPE151= 'R_MAG_UNC ' / Error in r mag in PSF [mag] TFORM152= 'E ' /Real*4 (floating point) TTYPE152= 'I_MAG_UNC ' / Error in i mag in PSF [mag] TFORM153= 'E ' /Real*4 (floating point) TTYPE153= 'Z_MAG_UNC ' / Error in z mag in PSF [mag] TFORM154= 'E ' /Real*4 (floating point) TTYPE154= 'EBV ' / E(B-V) from Schlegel et al. (1998) [mag] TFORM155= 'E ' /Real*4 (floating point) TTYPE155= 'SNR ' / Average S/N per pixel over 4000 - 8000 A TFORM156= 'I ' /Integer*2 (short integer) TTYPE156= 'QA ' / Quality check on spectrum TFORM157= 'E ' /Real*4 (floating point) TTYPE157= 'CC_CAHK ' / Correlation coefficient over 3850-4250 A TFORM158= 'E ' /Real*4 (floating point) TTYPE158= 'CC_MGH ' / Correlation coefficient over 4500-5500 A TFORM159= 'D ' /Real*8 (double precision) TTYPE159= 'RA ' / RA [degree] TFORM160= 'D ' /Real*8 (double precision) TTYPE160= 'DEC ' / DEC [degree] TFORM161= 'D ' /Real*8 (double precision) TTYPE161= 'L ' / Galactic longitude (l) [degree] TFORM162= 'D ' /Real*8 (double precision) TTYPE162= 'B ' / Galactic latitude (b) [degree] TFORM163= 'E ' /Real*4 (floating point) TTYPE163= 'TEFF_SPEC ' / Adopted Teff from spectroscopic based methods [K] TFORM164= 'I ' /Integer*2 (short integer) TTYPE164= 'TEFF_SPEC_N ' / Number of estimators spectroscopic based methods TFORM165= 'E ' /Real*4 (floating point) TTYPE165= 'TEFF_SPEC_UNC ' / Error in the adopted Teff spectroscopic based methods [K] TFORM166= 'E ' /Real*4 (floating point) TTYPE166= 'LOGG_SPEC ' / Adopted logg from spectroscopic based methods [dex] TFORM167= 'I ' /Integer*2 (short integer) TTYPE167= 'LOGG_SPEC_N ' / Number of estimators spectroscopic based methods TFORM168= 'E ' /Real*4 (floating point) TTYPE168= 'LOGG_SPEC_UNC ' / Error in the adopted logg spectroscopic based methods [dex] TFORM169= 'E ' /Real*4 (floating point) TTYPE169= 'FEH_SPEC ' / Adopted [Fe/H] from spectroscopic based methods [dex] TFORM170= 'I ' /Integer*2 (short integer) TTYPE170= 'FEH_SPEC_N ' / Number of estimators spectroscopic based methods TFORM171= 'E ' /Real*4 (floating point) TTYPE171= 'FEH_SPEC_UNC ' / Error in the adopted [Fe/H] spectroscopic based methods [dex] TFORM172= 'E ' /Real*4 (floating point) TTYPE172= 'TEFF_COL ' / Teff from color (g-z) - Teff relation [K] TFORM173= 'E ' /Real*4 (floating point) TTYPE173= 'TEFF_COL_UNC ' / Error in Teff from color-Teff relation [K] TFORM174= 'E ' /Real*4 (floating point) TTYPE174= 'FEH_TFIX_NGS2 ' / [Fe/H] estimate from NGS2 with fixed Teff from the color-Teff relation [K] TFORM175= 'E ' /Real*4 (floating point) TTYPE175= 'FEH_TFIX_NGS1 ' / [Fe/H] estimate from NGS1 with fixed Teff from the color-Teff relation [K] TFORM176= 'E ' /Real*4 (floating point) TTYPE176= 'LOGG_TFIX_NGS2 ' / log g estimate from NGS2 with fixed Teff from the color-Teff relation [dex] TFORM177= 'E ' /Real*4 (floating point) TTYPE177= 'LOGG_TFIX_NGS1 ' / log g estimate from NGS1 with fixed Teff from the color-Teff relation [dex] TFORM178= 'E ' /Real*4 (floating point) TTYPE178= 'FEH_TFIX_NGS2_UNC ' / Error in [Fe/H] from NGS2 with fixed Teff from the color-Teff relation [dex] TFORM179= 'E ' /Real*4 (floating point) TTYPE179= 'FEH_TFIX_NGS1_UNC ' / Error in [Fe/H] from NGS1 with fixed Teff from the color-Teff relation [dex] TFORM180= 'E ' /Real*4 (floating point) TTYPE180= 'LOGG_TFIX_NGS2_UNC ' / Error in log g from NGS2 with fixed Teff from the color-Teff relation [dex] TFORM181= 'E ' /Real*4 (floating point) TTYPE181= 'LOGG_TFIX_NGS1_UNC ' / Error in log g from NGS1 with fixed Teff from the color-Teff relation [dex] TFORM182= 'E ' /Real*4 (floating point) TTYPE182= 'FEH_TFIX_CAIIK1 ' / [Fe/H] from CaIIK1 with fixed Teff from the color-Teff relation [dex] TFORM183= 'E ' /Real*4 (floating point) TTYPE183= 'FEH_TFIX_CAIIK1_UNC ' / Error in [Fe/H] from CaIIK1 with fixed Teff from the color-Teff relation [dex] TFORM184= 'E ' /Real*4 (floating point) TTYPE184= 'ACF1 ' / Auto-Correlation Function over 4000-4086/4116-4325/4355-4500 TFORM185= 'E ' /Real*4 (floating point) TTYPE185= 'ACF1_SNR ' / S/N in Auto-Correlation Function 1 (ACF1) TFORM186= 'E ' /Real*4 (floating point) TTYPE186= 'ACF2 ' / Auto-Correlation Function over 4000-4086/4116-4280/4280-4500 TFORM187= 'E ' /Real*4 (floating point) TTYPE187= 'ACF2_SNR ' / S/N in Auto-Correlation Function 2 (ACF2) TFORM188= '6A ' /Character string TTYPE188= 'INSPECT ' /Flag with six letters for inspecting spectra TFORM189= 'E ' /Real*4 (floating point) TTYPE189= 'ELODIERVFINAL ' / Elodie RV + 7.3 km/s TFORM190= 'E ' /Real*4 (floating point) TTYPE190= 'ELODIERVFINALERR ' / Error in ELODIERVFINAL TFORM191= 'J ' /Integer*4 (long integer) TTYPE191= 'ZWARNING ' / Zwarning TFORM192= '6A ' /Character string TTYPE192= 'SURVEY ' / Which survey (SDSS, SEGUE1, and SEGUE2) belongs to TFORM193= 'J ' /Integer*4 (long integer) TTYPE193= 'PRIMTARGET ' / Primary target bits TFORM194= 'J ' /Integer*4 (long integer) TTYPE194= 'SECTARGET ' / Secondary target bits TFORM195= 'J ' /Integer*4 (long integer) TTYPE195= 'SEGUE1_TARGET1 ' / Primary target bits in SEGUE1 if not a SEGUE1 plate then 0 TFORM196= 'J ' /Integer*4 (long integer) TTYPE196= 'SEGUE1_TARGET2 ' / Secondary target bits in SEGUE1 if not a SEGUE1 plate then 0 TFORM197= 'J ' /Integer*4 (long integer) TTYPE197= 'SEGUE2_TARGET1 ' / Primary target bits in SEGUE2 if not a SEGUE1 plate then 0 TFORM198= 'J ' /Integer*4 (long integer) TTYPE198= 'SEGUE2_TARGET2 ' / Secondary target bits in SEGUE2 if not a SEGUE2 plate then 0 TFORM199= '4A ' /Character string TTYPE199= 'L_CLASS ' / Adopted Luminosity class TFORM200= 'E ' /Real*4 (floating point) TTYPE200= 'DIST_ADOP ' / Distance from the adopted luminosity class TFORM201= '2A ' /Character string TTYPE201= 'MP_FLAG ' / A flag for metallicity possibly lower than the adopted TFORM202= 'E ' /Real*4 (floating point) TTYPE202= 'TEFF_IRFM ' / Teff from IRFM TFORM203= 'I ' /Integer*2 (short integer) TTYPE203= 'TEFF_IRFM_IND ' / Indicator variable TFORM204= 'E ' /Real*4 (floating point) TTYPE204= 'TEFF_IRFM_UNC ' / Error in Teff from IRFM TFORM205= 'E ' /Real*4 (floating point) TTYPE205= 'LOGG_NGS1_IRFM ' / log g estimate from NGS1 with fixed IRFM Teff TFORM206= 'I ' /Integer*2 (short integer) TTYPE206= 'LOGG_NGS1_IRFM_IND ' / Indicator variable TFORM207= 'E ' /Real*4 (floating point) TTYPE207= 'LOGG_NGS1_IRFM_UNC ' / Error in log g from NGS1 with fixed IRFM Teff TFORM208= 'E ' /Real*4 (floating point) TTYPE208= 'FEH_NGS1_IRFM ' / [Fe/H] estimate from NGS1 with fixed IRFM Teff TFORM209= 'I ' /Integer*2 (short integer) TTYPE209= 'FEH_NGS1_IRFM_IND ' / Indicator variable TFORM210= 'E ' /Real*4 (floating point) TTYPE210= 'FEH_NGS1_IRFM_UNC ' / Error in [Fe/H] from NGS1 with fixed IRFM Teff TFORM211= 'E ' /Real*4 (floating point) TTYPE211= 'LOGG_CAI1_IRFM ' / log g estimate from CAI1 with fixed IRFM Teff TFORM212= 'I ' /Integer*2 (short integer) TTYPE212= 'LOGG_CAI1_IRFM_IND ' / Indicator variable TFORM213= 'E ' /Real*4 (floating point) TTYPE213= 'LOGG_CAI1_IRFM_UNC ' / Error in log g from CAI1 with fixed IRFM Teff TFORM214= 'E ' /Real*4 (floating point) TTYPE214= 'FEH_CAIIK1_IRFM ' / [Fe/H] from CaIIK1 with fixed IRFM Teff TFORM215= 'I ' /Integer*2 (short integer) TTYPE215= 'FEH_CAIIK1_IRFM_IND ' / Indicator variable TFORM216= 'E ' /Real*4 (floating point) TTYPE216= 'FEH_CAIIK1_IRFM_UNC ' / Error in [Fe/H] from CaIIK1 with fixed IRFM Teff
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