Spectroscopic Bolometric Corrections and Empirical Zero-point Constants of Gaia Magnitudes, G, G BP, and G RP, from Gaia XP Spectra

Abstract

The International Astronomical Union 2015 Resolution B2 (IAU2015GARB2) has resolved the long-standing problem of zero-point constants for the absolute and apparent bolometric magnitude scales and opened a new window in fundamental astrophysics. The empirical zero-point constants of the bolometric corrections, C2(), and the absolute/apparent magnitudes, C/c, for the Gaia passbands were obtained from 88 Gaia XP spectra, and absolute bolometric/filtered magnitudes. The individual zero-point constants C 2 of the bolometric corrections (BC) for each star revealed weighted averages of C 2(G)=0.86770.0109 mag, C 2(G BP)=1.04490.0116 mag, and C 2(G RP)=2.05100.0087 mag. Furthermore, C Bol=71.197425... mag and c Bol =-18.997351...mag announced by IAU2015GARB2, and using the definition of C 2=C Bol-C=c Bol-c, where the subscript 2 indicate the wavelength ranges of two in which one is for bolometric and the other for one of the three filters, the zero-point constants of magnitudes for Gaia filters as C G=70.15250.0109 mag and c G=-19.86510.0105 mag, C G BP=70.15250.0116 mag and c G BP=-20.04230.0116 mag, and C G RP=69.14640.0087 mag and c G RP=-21.04840.0087 mag, if L and f are in SI units in case no extinctions. Lastly, spectroscopic BCs for Gaia magnitudes of 88 stars and the spectroscopic BC-T eff relation for each Gaia filter are presented.