http://arxiv.org/abs/2212.06855
Discovery and characterisation of black holes (BHs) and neutron stars (NSs) with detached luminous companions (LCs) in wide orbits are exciting because they are important test beds for dark remnant (DR) formation as well as binary stellar evolution models. Recently, 33 candidates have been identified from Gaia’s non-single star catalog as wide orbit (P_orb/day >100), detached binaries hosting high-mass (>1.4 M_Sun) DRs, possibly NSs or BHs. We identify NUV counterparts for fourteen of these sources in the archival GALEX data. Using spectral energy distribution (SED) fits spanning NUV to IR and stellar evolution models, we estimate the properties of the LCs in these fourteen sources. Using the LC masses, and the astrometric mass function, we constrain the DR masses and find that ten have masses clearly in the NS or BH mass range. One source exhibits significant NUV excess in its SED. We find that, the most natural explanation is that the DR in this source is a white dwarf (WD). Our estimated DR mass for this source is also lower than the Chandrasekhar mass limit. We find NUV excess in two other sources where the DR masses are consistent with them being WDs. However, for them, the only available NUV data did not satisfy our cutoff significance for UV excess. Given the importance of detection and characterisation of DRs in wide detached binaries with LCs, we encourage follow-up investigation of candidate sources spanning multiple wavelengths including X-ray, FUV, and radio.
A. Ganguly, P. Nayak and S. Chatterjee
Thu, 15 Dec 22
61/75
Comments: 8 pages, 5 figures, 2 tables, submitted to the Astrophysical Journal, comments welcome