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Gravitational waves detected by a burst search in LIGO/Virgo’s third observing run

T. Mishra, S. Bhaumik, V. Gayathri, M. J. Szczepańczyk, I. Bartos, S. Klimenko

2025Physical review. D/Physical review. D.12 citationsDOI

Abstract

Burst searches identify gravitational-wave signals in the detector data without use of a specific signal model, unlike the matched-filter searches that correlate data with simulated signal waveforms (templates). While matched filters are optimal for detection of known signals in the Gaussian noise, the burst searches can be more efficient in finding unusual events not covered by templates or those affected by non-Gaussian noise artifacts. Here, we report the detection of 3 gravitational wave signals that are uncovered by a burst search coherent WaveBurst (cWB) optimized for the detection of binary black hole mergers. They were found in the data from the LIGO/Virgo's third observing run (O3) with a combined significance of $3.6\ensuremath{\sigma}$. Each event appears to be a binary black hole merger not previously reported by the LIGO/Virgo's matched-filter searches. The most significant event has a reconstructed primary component in the upper mass gap (${m}_{1}=7{0}_{\ensuremath{-}18}^{+36}{M}_{\ensuremath{\bigodot}}$), and unusually low mass ratio (${m}_{2}/{m}_{1}\ensuremath{\sim}0.3$), implying a dynamical or active galactic nucleus origin. The three new events are consistent with the expected number of cWB-only detections in the O3 run, and belong to the stellar-mass binary population with the total masses in the $70--100{M}_{\ensuremath{\bigodot}}$ range.

Topics & Concepts

LIGOGravitational waveAstronomyPhysicsAstrophysicsComputer sciencePulsars and Gravitational Waves ResearchCosmology and Gravitation TheoriesGeophysics and Gravity Measurements
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