What if LIGOs gravitational wave detections are strongly lensed by massive galaxy clusters?


Abstract in English

Motivated by the preponderance of so-called heavy black holes in the binary black hole (BBH) gravitational wave (GW) detections to date, and the role that gravitational lensing continues to play in discovering new galaxy populations, we explore the possibility that the GWs are strongly-lensed by massive galaxy clusters. For example, if one of the GW sources were actually located at $z=1$, then the rest-frame mass of the associated BHs would be reduced by a factor $sim2$. Based on the known populations of BBH GW sources and strong-lensing clusters, we estimate a conservative lower limit on the number of BBH mergers detected per detector year at LIGO/Virgos current sensitivity that are multiply-imaged, of $R_{rm detect}simeq10^{-5}{rm yr}^{-1}$. This is equivalent to rejecting the hypothesis that one of the BBH GWs detected to date was multiply-imaged at $<sim4sigma$. It is therefore unlikely but not impossible that one of the GWs is multiply-imaged. We identify three spectroscopically confirmed strong-lensing clusters with well constrained mass models within the $90%$ credible sky localisations of the BBH GWs from LIGOs first observing run. In the event that one of these clusters multiply-imaged one of the BBH GWs, we predict that $20-60%$ of the putative next appearances of the GWs would be detectable by LIGO, and that they would arrive at Earth within three years of first detection.

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