On the formation of galactic black hole low-mass X-ray binaries

Wang, Chen; Jia, Kun; Li, Xiangdong

doi:10.1093/mnras/stw101

Cited by 28 publications

(21 citation statements)

References 83 publications

(111 reference statements)

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“…We wish to mention that the observed CMF is in tension with the results of population synthesis of LMXBs through CE evolution for various CE energy binding parameters proposed up to date (Wiktorowicz et al 2014), as they generally result in a distribution peaking strongly around 1.0 M ⊙ with a possible smaller peak around 0.2-0.3 M ⊙ . Similar results were obtained by Wang et al (2016), although it seems that a better agreement with observations could potentially be obtained if BH were formed in failed SN (Kochanek 2014) rather than through material fallback ). In the meantime channels involving intermediate mass donors (Justham et al 2006;Chen & Li 2006) are also inconsistent with observations as they predict donor spectral types which are too hot to explain the observed temperatures of companion stars in BH LMXBs.…”

Section: The Population Of Lmxbssupporting

confidence: 80%

“…In an attempt to justify such increased efficiency several modified CE models were proposed (see Li 2015 and references therein). Population synthesis studies have recently shown, however, that CE models in their current state fail to reproduce the distribution of donor mass of the observed BH LMXBs (Wiktorowicz et al 2014;Wang et al 2016), implying the need for either a more significant adjustment of the CE modeling or an alternative formation scenario to be considered.…”

Section: Introductionmentioning

confidence: 99%

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Dynamical formation of black hole low-mass X-ray binaries in the field: an alternative to the common envelope

Klencki

Wiktorowicz

Gładysz

et al. 2017

Monthly Notices of the Royal Astronomical Society

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Very wide binaries (> 500 AU) are subject to numerous encounters with flying-by stars in the Galactic field and can be perturbated into highly eccentric orbits (e ∼ 0.99). For such systems tidal interactions at close pericenter passages can lead to orbit circularization and possibly mass transfer, consequently producing X-Ray binaries without the need for common envelope. We test this scenario for the case of Black Hole Low-Mass X-Ray Binaries (BH LMXBs) by performing a population synthesis from primordial binaries with numerical treatment of random stellar encounters. We test various models for the threshold pericenter distance under which tidal forces cause circularization. We estimate that fly-by interactions can produce a current population of ∼ 60-220 BH LMXBs in the Galactic field. The results are sensitive to the assumption on tidal circularization efficiency and zero to very small BH natal kicks of a few km/s are required. We show that the most likely donors are low-mass stars (< 1 M ⊙ ; at the onset of mass transfer) as observed in the population of known sources (∼ 20). However, the low number of systems formed along this route is in tension with most recent observational estimate of the number of dormant BH LMXBs in the Galaxy 10 4 -10 8 (Tetarenko et al. 2016a). If indeed the numbers are so high, alternative formation channels of BHs with low-mass donors need to be identified.

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Section: The Population Of Lmxbssupporting

confidence: 80%

Section: Introductionmentioning

confidence: 99%

Dynamical formation of black hole low-mass X-ray binaries in the field: an alternative to the common envelope

Klencki

Wiktorowicz

Gładysz

et al. 2017

Monthly Notices of the Royal Astronomical Society

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“…Although these binaries may hide the cutoff at ∼ 1 pc, the fraction of the pre-existing binaries in galactic nuclei is poorly constrained. Due to rapid hardening expected during the common envelope phase, the formation of LMXBs is puzzling (Podsiadlowski et al 2003;Wiktorowicz et al 2014;Li 2015;Wang et al 2016). This is especially the case in galactic nuclei where only hard binaries are long-lived, so that surviving the common envelope phase without merging is even more difficult (Stephan et al 2019).…”

Section: Spatial Distribution Of Surviving Binariesmentioning

confidence: 99%

Formation and Evolution of Compact Object Binaries in AGN Disks

Tagawa,

Haiman,

Kocsis

2019

Preprint

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The astrophysical origin of gravitational wave (GW) events discovered by LIGO/VIRGO remains an outstanding puzzle. In active galactic nuclei (AGN), compact-object binaries form, evolve, and interact with a dense star cluster and a gas disk. While most binaries are soft and get disrupted by binary-single interactions, an important question is whether and how binaries can merge in these environments. To address this question, we have performed one-dimensional N -body simulations combined with a semi-analytical model which includes the formation, disruption, and evolution of binaries self-consistently. We point out that binaries can form in single-single interactions by the dissipation of kinetic energy in a gaseous medium. This "gas capture" binary formation channel contributes up to 97 % of gas-driven mergers and leads to a high merger rate in AGN disks even without pre-existing binaries. We find the merger rate to be in the range ∼ 0.02 − 60 Gpc −3 yr −1 , whose high end corresponds to top heavy initial mass functions, highly anisotropic initial BH distribution, short AGN lifetime, and large AGN disk sizes. The results are insensitive to the assumptions on gaseous hardening processes: we find that once they are formed, binaries merge efficiently via binary-single interactions even if these gaseous processes are neglected. We find that the average number of mergers per BH is 0.4, and the probability for repeated mergers in 30 Myr is ∼ 0.21 − 0.45. High BH masses due to repeated mergers, high eccentricities, and a significant Doppler drift of GWs are promising signatures which distinguish this merger channel from others. Furthermore, we find that gas-capture binaries reproduce the distribution of LMXBs in the Galactic center, including an outer cutoff at ∼ 1 pc due to the competition between migration and hardening by gas torques.

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“…This observation coupled with an estimate for the fraction of the BH population expected to be in accreting bina-Email: mgiesler@tapir.caltech.edu ries (Ivanova et al 2010) suggests that M22 may contain between 5 − 100 BHs (Strader et al 2012). Recent theoretical studies, including some detailed N-body simulations (e.g., Aarseth 2012; Wang et al 2016), support the idea that GCs are capable of retaining from a few to hundreds of BHs (e.g., Breen & Heggie 2013;Morscher et al 2013;Sippel & Hurley 2013;Rodriguez et al 2016b).…”

Section: Introductionmentioning

confidence: 99%

Low-mass X-ray binaries from black hole retaining globular clusters

Giesler

Clausen

Ott

2018

Monthly Notices of the Royal Astronomical Society

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Recent studies suggest that globular clusters (GCs) may retain a substantial population of stellar-mass black holes (BHs), in contrast to the long-held belief of a few to zero BHs. We model the population of BH low-mass X-ray binaries (BH-LMXBs), an ideal observable proxy for elusive single BHs, produced from a representative group of Milky Way GCs with variable BH populations. We simulate the formation of BH-binaries in GCs through exchange interactions between binary and single stars in the company of tens to hundreds of BHs. Additionally, we consider the impact of the BH population on the rate of compact binaries undergoing gravitational wave driven mergers. The characteristics of the BH-LMXB population and binary properties are sensitive to the GCs structural parameters as well as its unobservable BH population. We find that GCs retaining ∼ 1000 BHs produce a galactic population of ∼ 150 ejected BH-LMXBs whereas GCs retaining only ∼ 20 BHs produce zero ejected BH-LMXBs. Moreover, we explore the possibility that some of the presently known BH-LMXBs might have originated in GCs and identify five candidate systems.

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On the formation of galactic black hole low-mass X-ray binaries

Cited by 28 publications

References 83 publications

Dynamical formation of black hole low-mass X-ray binaries in the field: an alternative to the common envelope

Dynamical formation of black hole low-mass X-ray binaries in the field: an alternative to the common envelope

Formation and Evolution of Compact Object Binaries in AGN Disks

Low-mass X-ray binaries from black hole retaining globular clusters

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