Matching post-Newtonian and numerical relativity waveforms: Systematic errors and a new phenomenological model for nonprecessing black hole binaries
Abstract
We present a new phenomenological gravitational waveform model for the inspiral and coalescence of nonprecessing spinning black hole binaries. Our approach is based on a frequency-domain matching of post-Newtonian inspiral waveforms with numerical relativity based binary black hole coalescence waveforms. We quantify the various possible sources of systematic errors that arise in matching post-Newtonian and numerical relativity waveforms, and we use a matching criteria based on minimizing these errors; we find that the dominant source of errors are those in the post-Newtonian waveforms near the merger. An analytical formula for the dominant mode of the gravitational radiation of nonprecessing black hole binaries is presented that captures the phenomenology of the hybrid waveforms. Its implementation in the current searches for gravitational waves should allow cross-checks of other inspiral-merger-ringdown waveform families and improve the reach of gravitational-wave searches.
Additional Information
© 2010 The American Physical Society. Received 4 June 2010; published 13 September 2010. We thank Doreen Müller for carrying out some of the BAH simulations, and Stas Babak, Vitor Cardoso, Steve Fairhurst, Ian Hinder, Doreen Müller, Dirk Putzfeld, Bangalore Sathyaprakash and Bernard Schutz for useful comments and discussions. L. S. has been partially supported by DAAD Grant No. A/06/12630. M.H. was supported by FWF Lise-Meitner Project No. M1178-N16 at the University of Vienna. S. H. was supported by DAAD Grant No. D/07/13385 and Grant No. FPA-2007-60220 from the Spanish Ministry of Science. D. P. has been supported by Grant No. CSD-2007-00042 of the Spanish Ministry of Science. D. P. and C. R. received support from the Bundesministerium für Bildung und Forschung, Germany. BAH simulations were performed at computer centers LRZ Munich, ICHEC Dublin, VSC Vienna, CESGA Santiago the Compostela and at MareNostrum at Barcelona Supercomputing Center—Centro Nacional de Supercomputación (Spanish National Supercomputing Center). This work was supported in part by the DFG Grant No. SFB/Transregio 7 "Gravitational-wave astronomy" and by the DLR (Deutsches Zentrum für Luft- und Raumfahrttechnik).Attached Files
Published - Santamaria2010p11467Phys_Rev_D.pdf
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Additional details
- Eprint ID
- 20267
- Resolver ID
- CaltechAUTHORS:20101004-085415232
- A/06/12630
- Deutscher Akademischer Austausch Dienst (DAAD)
- M1178-N16
- FWF Lise-Meitner at the University of Vienna
- D/07/13385
- Spanish Ministry of Science
- FPA-2007-60220
- Spanish Ministry of Science
- CSD-2007-00042
- Spanish Ministry of Science
- Bundesministerium fur Bildung und Forschung, Germany
- Created
-
2010-10-05Created from EPrint's datestamp field
- Updated
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2021-11-08Created from EPrint's last_modified field
- Caltech groups
- TAPIR