From the matched GALEX-SDSS source catalogs described above,
Bianchi et al. 2011, MNRAS, 411, 2770 selected hot star candidates, by extracting the
sources with GALEX UV color FUV-NUV < -0.13mag. This color cut corresponds to Effective Temperature
approximately hotter than 18,000K, the exact value depending on gravity (see Sections 3 and 4 of
the cited paper). While the FUV-NUV color allows one to detect the presence of a hot star,
the combination of UV measurements with an additional optical band provides an approximate separation
between "single" hot stars, and
hot stars with a cooler companion (see Fig.1 of Bianchi 2009, ApSS, 320, 11).
Bianchi et al. (2011, MNRAS, 411, 2770) adopted a color cut of NUV-r >0.1mag to separate
candidate binaries among this sample. Note that the binaries locus is contaminated
by some QSOs with non-canonical UV colors (Bianchi et al. 2009, AJ, 137, 3761), the relative
number of extragalactic sources increases towards fainter magnitudes (Bianchi et al. 2011, ApSS, DOI: 10.1007/s10509-010-0581-x).
The hot-star candidates with NUV-r <0.1mag are mostly single stars, although some types
of binaries are also included in this color locus ; most importantly, serendipitous spectroscopic
follow-up of a
subsample indicates the QSO contamination to be negligible in this selection. Therefore, the purity of the "single hot-star" sample is much higher than for
hot stars
in the binary locus , and the latter are flagged in the catalogs.
The catalog header includes a byte-by-byte description of the columns. Most fields are described in
the general catalog documentation, given above.
The source paper Bianchi et al. (2011, MNRAS, 411, 2770) includes an analysis of these hot-star candidates
catalogs with Milky way models, which provides some constraints on the Initial-Final mass relation (IFMR).
Note that:
The catalogs may be used by citing the source Bianchi et al. (2011, MNRAS, 411, 2770) (open source).
GALEX-MIS---SDSS hot star candidate catalog (9032 sources)