A 2 statistic for the identification of strongly lensed gravitational waves from compact binary coalescences

Abstract

Gravitational waves (GWs) emanated by stellar mass compact binary coalescences (CBCs), and lensed by galaxy- or cluster-scale lenses, will produce two or more copies of the GW signal. These will have identical phase evolution but differing amplitudes. Such lensing signatures are expected to be detected by the end of the LIGO-Virgo-Kagra's (LVK's) fifth observing run (O5). In this work, we propose a novel lens2 statistic to segregate pairs of detected GW events as either lensed or unlensed, using templates typically used in GW searches. The statistic is an application of the generalized 2 discriminator described in dhurandhar2017, tailored to probe the similarity (or lack thereof) between the phase evolutions of two CBC signals. We assess the performance of lens2 on a realistic astrophysical dataset of lensed and unlensed CBCs detectable in O4, assuming a single LIGO-like detector at design sensitivity. We find that we can correctly identify lensed events with efficiencies comparable to existing Bayesian and machine learning methods. Evaluating lens2 is orders of magnitude faster than Bayesian methods. Moreover, the statistics of lens2, in stationary Gaussian noise, are fully understood, in contrast to machine learning methods. lens2 can, therefore, be used to rapidly and accurately weed out the vast majority of unlensed candidate pairs and identify lensed pairs.

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