GW230529的基洛新星发射和质量间隙中子星-黑洞合并

Keerthi Kunnumkai, Antonella Palmese, Mattia Bulla, Tim Dietrich, Amanda M. Farah, Peter T. H. Pang
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摘要

LIGO-Virgo-KAGRA(LVK)合作组织探测到的引力波事件GW230529,推测是中子星-黑洞(NSBH)合并,这对多信使天文学来说是一个激动人心的发现。黑洞很有可能位于中子星(NS)和黑洞质量分布峰值之间的 "质量间隙 "内。由于原生质量较低,双星产生电磁对应物的可能性比之前探测到的NSBH合并要大。我们研究了GW230529可能发射的千新星(KN),发现如果它是一个NSBH,那么有$\sim$2-41%的概率(取决于假定的状态方程)认为GW230925产生了一个KN,其大小在合并后的$\sim 1-2$天达到峰值,即$g\lesssim 23.5$,$i<23$。因此,地面望远镜本可以探测到它。如果它是双中子星(BNS)合并,我们发现它产生KN的概率为0-12%。受这些数字的启发,我们模拟了国外可能在O4中探测到的mgNSBH合并群,我们得到了产生KN的9-21%的概率,这将在$g (无sim 25$和$ i (无sim 24$的条件下被探测到,通常比GW230529的预期更暗。基于这些发现,类似于DECam的仪器可能能够探测到多达80%的未来mgNSBH KNe,因此在目前的灵敏度水平上,每年可能有多达$\sim1$的多信使mgNSBH被发现(O4)。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Kilonova emission from GW230529 and mass gap neutron star-black hole mergers
The detection of the gravitational-wave event GW230529, presumably a neutron star-black hole (NSBH) merger, by the LIGO-Virgo-KAGRA (LVK) Collaboration is an exciting discovery for multimessenger astronomy. The black hole (BH) has a high probability of falling within the ''mass gap'' between the peaks of the neutron star (NS) and the BH mass distributions. Because of the low primary mass, the binary is more likely to produce an electromagnetic counterpart than previously detected NSBH mergers. We investigate the possible kilonova (KN) emission from GW230529, and find that if it was an NSBH, there is a $\sim$ 2-41% probability (depending on the assumed equation of state) that GW230925 produced a KN with magnitude peaking at $\sim 1-2$ day post merger at $g \lesssim 23.5$, $i<23$. Hence, it could have been detected by ground-based telescopes. If it was a binary neutron star (BNS) merger, we find $\sim$ 0-12% probability that it produced a KN. Motivated by these numbers, we simulated a broader population of mgNSBH mergers that may be detected in O4, and we obtained a 9-21% chance of producing a KN, which would be detectable with $g\lesssim 25$ and $ i \lesssim 24$, typically fainter than what is expected from GW230529. Based on these findings, DECam-like instruments may be able to detect up to 80% of future mgNSBH KNe, thus up to $\sim1$ multimessenger mgNSBH per year may be discoverable at the current level of sensitivity (O4).
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