2022
DOI: 10.48550/arxiv.2201.09549
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A Channel to Form Fast-spinning Black Hole--Neutron Star Binary Mergers as Multi-messenger Sources

Rui-Chong Hu,
Jin-Ping Zhu,
Ying Qin
et al.

Abstract: After the successful detection of a gravitational-wave (GW) signal and its associated electromagnetic (EM) counterparts from GW170817, neutron star-black hole (NSBH) mergers have been highly expected to be the next type of multi-messenger source. However, despite the detection of several of NSBH merger candidates during the GW third observation run, no confirmed EM counterparts from these sources have been identified. The most plausible explanation is that these NSBH merger candidates were plunging events main… Show more

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Cited by 3 publications
(3 citation statements)
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References 48 publications
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“…Mandel and Smith [582] reanalyzed the GW200115 signal using astrophysically-motivated spin priors and they obtained better constrains on the masses of the compact objects (m 1 = 7.0 +0.4 −0.4 M , m 2 = 1.25 +0.09 −0.07 M ) and a BH spin close to zero (χ 1,z = 0.00 +0.04 −0.04 ). The spins of the secondaries are unconstrained and no electromagnetic counterpart has been identified for both the events, in agreement with theoretical expectations for mixed binaries with low-spinning primary BHs (e.g., [583,584], but see [585]).…”
Section: Gw200105_162426 and Gw200115_042309supporting
confidence: 83%
“…Mandel and Smith [582] reanalyzed the GW200115 signal using astrophysically-motivated spin priors and they obtained better constrains on the masses of the compact objects (m 1 = 7.0 +0.4 −0.4 M , m 2 = 1.25 +0.09 −0.07 M ) and a BH spin close to zero (χ 1,z = 0.00 +0.04 −0.04 ). The spins of the secondaries are unconstrained and no electromagnetic counterpart has been identified for both the events, in agreement with theoretical expectations for mixed binaries with low-spinning primary BHs (e.g., [583,584], but see [585]).…”
Section: Gw200105_162426 and Gw200115_042309supporting
confidence: 83%
“…"Pessimistic" is our base model, with one key assumption about binary or stellar evolution varied in each of the following three models. In our 2 NSBH systems are exciting especially as multi-messenger sources -they can harbour recycled pulsars (Chattopadhyay et al 2021) as the NSs is born first and NSBHs with high pre-merger BH spins have the possibility to produce exciting electromagnetic signatures at their mergers (Hu et al 2022) choice of parameters for the models, we are guided by Fiducial/Default models of previous population synthesis studies (Stevenson et al 2017;Vigna-Gómez et al 2018;Neijssel et al 2019;Chattopadhyay et al 2020Chattopadhyay et al , 2021Broekgaarden et al 2021a). Based on the recent results from Broekgaarden & Berger (2021), we place particular emphasis on the importance of neutron star natal kicks, and the efficiency of the common envelope phase of binary evolution.…”
Section: Methodsmentioning
confidence: 99%
“…In Pathway A2, tides can affect both WR stars potentially allowing for a high BH spin, but this requires fine-tuning to ensure that the secondary is still not too massive to form a BH, e.g., qZAMS ∼ 0.95. If tidal interactions were to produce a highly spinning and aligned WR star such a system may yield significant ejected mass (Hu et al 2022).…”
Section: Black-hole Neutron-star Binary Formationmentioning
confidence: 99%