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Investigating Binary Black Hole Mergers with Principal Component Analysis
By James Clark, Laura Cadonati, James Healy, Ik Siong Heng, Josh Logue, Nicholas Mangini, Lionel London, Larne Pekowsky, Deirdre Shoemaker
Published in Gravitational Wave Astrophysics 40, 281 (Thursday, June 19, 2014)

Abstract

Despite recent progress in numerical simulations of the coalescence of binary black hole systems, highly asymmetric spinning systems and the construction of accurate physical templates remain challenging and computationally expensive. We explore the feasibility of a prompt and robust test of whether the signals exhibit evidence for generic features that can educate new simulations. We form catalogs of numerical relativity waveforms with distinct physical effects and compute the relative probability that a gravitational wave signal belongs to each catalog. We introduce an algorithm designed to perform this task for coalescence signals using principal component analysis of waveform catalogs and Bayesian model selection and demonstrate its effectiveness.

Research Areas

Numerical Relativity