Possibility of primordial black holes as the source of gravitational wave events in the advanced LIGO detector

E. Khalouei, H. Ghodsi, S. Rahvar, J. Abedi
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引用次数: 6

Abstract

The analysis of Gravitational Waves (GW) data from the Advanced LIGO provides the mass of each companion of binary black holes as the source of GWs. The observations reveal that the mass of events corresponding to the binary black holes are much larger than the mass of astrophysical black holes. In this work, we suggest the Primordial Black Holes (PBHs) as the source of LIGO events. Assuming that $100\%$ of the dark matter is made of PBHs, we estimate the rate at which these objects make binaries, merge and produce GWs as a function of redshift. The gravitational lensing of GWs by PBHs can also enhance the amplitude of the strain. We simulate GWs sourced by the binary PBHs, with the detection threshold of $S/N>10$ for both Livingston and Handford detectors. For the log-normal mass function of PBHs, we generate the expected distribution of events and compare our results with the observed events and find the best value of the mass function parameters (i.e $M_c =25 M_\odot$ and $\sigma=0.6$) in the lognormal mass function. Comparing the expected number of events with the number of observed ones reveals that even assuming all the dark matter is made of PBHs are not enough to produce the observed GW events and the astrophysical black holes should have the main contribution in the observed GW events.
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在先进的LIGO探测器中,原始黑洞作为引力波事件来源的可能性
高级LIGO对引力波(GW)数据的分析提供了作为引力波源的双黑洞的每个伴星的质量。观测结果表明,与双黑洞相对应的事件的质量远远大于天体物理黑洞的质量。在这项工作中,我们认为原始黑洞(PBHs)是LIGO事件的来源。假设暗物质的$100\%$是由pbh组成的,我们估计这些物体形成双星、合并和产生GWs的速率是红移的函数。pbh对GWs的引力透镜效应也能提高应变的幅值。我们模拟了二元pbh源的GWs, Livingston和Handford探测器的检测阈值均为$S/N>10$。对于PBHs的对数正态质量函数,我们生成事件的期望分布,并将我们的结果与观测到的事件进行比较,找到对数正态质量函数参数(即$M_c =25 M_\odot$和$\sigma=0.6$)的最佳值。将预期事件数与观测到的事件数进行比较表明,即使假设所有的暗物质都是由pbh组成的,也不足以产生观测到的GW事件,天体物理黑洞应该是观测到的GW事件的主要贡献。
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