On the Magnetic Braking Law in Black Hole Low-mass X-Ray Binaries

On the Magnetic Braking Law in Black Hole Low-mass X-Ray Binaries

Abstract Magnetic braking (MB) plays an important role in the evolution of close low-mass X-ray binaries (LMXBs). It is also essential to the formation of ultracompact X-ray binaries (UCXBs). There have been lively investigations on the MB mechanism(s) in both single stars and close binaries includi...

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Bibliographic Details
Published in:The Astrophysical journal Vol. 971; no. 1; pp. 54 - 64
Main Authors: Deng, Zhu-Ling, Li, Xiang-Dong
Format: Journal Article
Language:English
Published: Philadelphia The American Astronomical Society 01-08-2024
IOP Publishing
Subjects:
Binary stars
Black holes
Braking
Cataclysmic variables
Companion stars
Evolution
Galactic evolution
Low-mass x-ray binary stars
Neutron stars
Orbits
Stellar mass black holes
X ray binaries
X ray stars
X-ray astronomy
X-rays
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Summary:Abstract Magnetic braking (MB) plays an important role in the evolution of close low-mass X-ray binaries (LMXBs). It is also essential to the formation of ultracompact X-ray binaries (UCXBs). There have been lively investigations on the MB mechanism(s) in both single stars and close binaries including cataclysmic variables and neutron star (NS) LMXBs but with diverse conclusions. In this paper we explore the effect of MB on the black hole (BH) LMXB evolution. We combine binary population synthesis with detailed binary evolution to obtain the expected properties of the Galactic BH LMXB population. The simulated results are compared with the observational data including the BH mass, companion mass, companion temperature, orbital period, and mean accretion rate. Our results reveal that the MB laws with relatively low efficiency (i.e., RM12 and RVJ83) exhibit better agreement with observations, contrary to what was found for NS LMXBs. This raises the interesting question about whether MB really follows the same unified law in different types of binaries. We also predict that only a very small fraction (≲2.5%) of BH LMXBs can evolve to be UCXBs. This explains why no BH UCXB has been discovered so far.
Bibliography:High-Energy Phenomena and Fundamental Physics
AAS54758
ISSN:0004-637X
1538-4357
DOI:10.3847/1538-4357/ad5fec