Parameter estimation for signals from compact binary inspirals injected into LIGO data

During the fifth science run of the Laser Interferometer Gravitational-Wave Observatory (LIGO), signals modelling the gravitational waves emitted by coalescing non-spinning compact-object binaries were injected into the LIGO data stream. We analysed the data segments into which such injections were...

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Veröffentlicht in:	Classical and quantum gravity 2009-10, Vol.26 (20), p.204010-204010 (10)
Hauptverfasser:	van der Sluys, Marc, Mandel, Ilya, Raymond, Vivien, Kalogera, Vicky, Röver, Christian, Christensen, Nelson
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Schlagworte:	Exact sciences and technology General relativity and gravitation Physics
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creator	van der Sluys, Marc Mandel, Ilya Raymond, Vivien Kalogera, Vicky Röver, Christian Christensen, Nelson
description	During the fifth science run of the Laser Interferometer Gravitational-Wave Observatory (LIGO), signals modelling the gravitational waves emitted by coalescing non-spinning compact-object binaries were injected into the LIGO data stream. We analysed the data segments into which such injections were made using a Bayesian approach, implemented as a Markov-chain Monte Carlo technique in our code SPINspiral. This technique enables us to determine the physical parameters of such a binary inspiral, including masses and spin, following a possible detection trigger. For the first time, we publish the results of a realistic parameter-estimation analysis of waveforms embedded in real detector noise. We used both spinning and non-spinning waveform templates for the data analysis and demonstrate that the intrinsic source parameters can be estimated with an accuracy of better than 1-3% in the chirp mass and 0.02-0.05 (8-20%) in the symmetric mass ratio if non-spinning waveforms are used. We also find a bias between the injected and recovered parameters, and attribute it to the difference in the post-Newtonian orders of the waveforms used for injection and analysis.
doi_str_mv	10.1088/0264-9381/26/20/204010
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subjects	Exact sciences and technology General relativity and gravitation Physics
title	Parameter estimation for signals from compact binary inspirals injected into LIGO data
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