Litcius/Paper detail

Extending the PyCBC search for gravitational waves from compact binary mergers to a global network

G. S. Davies, T. Dent, M. Tápai, I. W. Harry, C. McIsaac, A. Nitz

2020Physical review. D/Physical review. D.119 citationsDOIOpen Access PDF

Abstract

The worldwide advanced gravitational-wave (GW) detector network has so far primarily consisted of the two Advanced LIGO observatories at Hanford and Livingston, with Advanced Virgo joining the 2016-7 O2 observation run at a relatively late stage. However Virgo has been observing alongside the LIGO detectors since the start of the O3 run; in the near future, the KAGRA detector will join the global network and a further LIGO detector in India is under construction. Gravitational-wave search methods would therefore benefit from the ability to analyse data from an arbitrary network of detectors. In this paper, we extend the PyCBC offline compact binary coalescence (CBC) search analysis to three or more detectors, and describe resulting updates to the coincident search and event ranking statistic. For a three-detector network, our improved multi-detector search finds 23% more simulated signals at fixed false alarm rate in idealized colored Gaussian noise, and up to 40% more in real data, compared to the two-detector analysis previously used during O2.

Topics & Concepts

DetectorLIGOGravitational wavePhysicsBinary numberGravitational-wave observatoryReal-time computingConstant false alarm rateComputer scienceBinary search algorithmAstronomyAstrophysicsOpticsAlgorithmSearch algorithmMathematicsArithmeticPulsars and Gravitational Waves ResearchGamma-ray bursts and supernovaeTarget Tracking and Data Fusion in Sensor Networks