http://arxiv.org/abs/2209.06844
Mass measurements from low-mass black hole X-ray binaries (LMXBs) and radio pulsars have been used to identify a gap between the most massive neutron stars (NS) and the least massive black holes (BH). BH mass measurements in LMXBs are typically only possible for transient systems: outburst periods enable detection via all-sky X-ray monitors, while quiescent periods enable radial-velocity measurements of the low-mass donor. We present the first quantitative study of selection biases due to the requirement of transient behavior for BH mass measurements. Using rapid population synthesis simulations (COSMIC), detailed binary stellar-evolution models (MESA), and the disk instability model of transient behavior, we demonstrate that transient LMXB selection effects do introduce biases into the observed sample. If a gap is not inherent in BH birth masses, mass growth through LMXB accretion and selection effects can suppress mass-gap BHs in the observed sample. Our results are robust against variations of binary evolution prescriptions. We further find that a population of transient LMXBs with mass-gap BHs form through accretion induced collapse of a NS during the LMXB phase. The significance of this population is dependent on the maximum NS birth mass $M_\mathrm{NS, birth-max}$. For $M_\mathrm{NS, birth-max}=3M_{\odot}$, MESA and COSMIC models predict a similar fraction of mass gap LMXBs. However, for $M_\mathrm{NS, birth-max}\lesssim2M_{\odot}$ and realistic models of the disk-instability, our MESA models produce a dearth of mass-gap LMXBs, more consistent with observations. This constraint on $M_\mathrm{NS, birth-max}$ is independent of whether low-mass BHs form at core-collapse.
J. Siegel, I. Kiato, V. Kalogera, et. al.
Fri, 16 Sep 22
4/84
Comments: 21 pages, submitted to ApJ
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