The hidden companion in J1527: a 0.69 solar-mass white dwarf?

Abstract

Finding nearby neutron stars can probe the supernova and metal-enrichment histories near our Solar system. Recently, Lin et al. 2023 reported an exciting neutron star candidate, 2MASS J15274848+3536572 (hereafter J1527), with a small Gaia distance of 118 parsecs. They claim that J1527 harbors an unseen neutron star candidate with an unusually low mass of 0.980.03\,M. In this work, we use the Canada-France-Hawaii Telescope high-resolution spectrum to measure J1527's orbital inclination independently. Our spectral fitting suggests an orbital inclination of 632 degrees. Instead, by fitting a complex hybrid variability model consisting of the ellipsoidal-variation component and the star-spot modulation to the observed light curve, Lin et al. 2023 obtains an orbital inclination of 45.2-0.20+0.13 degrees. We speculate that the orbital inclination obtained by the light-curve fitting is underestimated, since J1527's light curves are obviously not pure ellipsoidal variations. According to our new inclination (i 63 degrees), the mass of the unseen compact object is reduced to 0.690.02\,M, which is as massive as a typical white dwarf.