Error-analysis and comparison to analytical models of numerical waveforms 
produced by the NRAR Collaboration

Hinder, Ian; Buonanno, Alessandra; Boyle, Michael; Etienne, Zachariah B.; Healy, James; Johnson-McDaniel, Nathan K.; Nagar, Alessandro; Nakano, Hiroyuki; Pan, Yi; Pfeiffer, Harald P.; Pürrer, Michael; Reisswig, Christian; Scheel, Mark A.; Schnetter, Erik; Sperhake, Ulrich; Szilagyi, Bela; Tichy, Wolfgang; Wardell, Barry; Zenginoglu, Anıl; Alic, Daniela; Bernuzzi, Sebastiano; Bode, Tanja; Brügmann, Bernd; Buchman, Luisa T.; Campanelli, Manuela; Chu, Tony; Damour, Thibault; Grigsby, Jason D.; Hannam, Mark; Haas, Roland; Hemberger, Daniel A.; Husa, Sascha; Kidder, Lawrence E.; Laguna, Pablo; London, Lionel; Lovelace, Geoffrey; Lousto, Carlos O.; Marronetti, Pedro; Matzner, Richard A.; Mösta, Philipp; Mroué, Abdul; Müller, Doreen; Mundim, Bruno C.; Nerozzi, Andrea; Paschalidis, Vasileios; Pollney, Denis; Reifenberger, George; Rezzolla, Luciano; Shapiro, Stuart L.; Shoemaker, Deirdre; Taracchini, Andrea; Taylor, Nicholas W.; Teukolsky, Saul A.; Thierfelder, Marcus; Witek, Helvi; Zlochower, Yosef; The NRAR Collaboration

doi:10.1088/0264-9381/31/2/025012

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Error-analysis and comparison to analytical models of numerical waveforms produced by the NRAR Collaboration

Hinder, I., Buonanno, A., Boyle, M., Etienne, Z. B., Healy, J., Johnson-McDaniel, N. K., et al. (2014). Error-analysis and comparison to analytical models of numerical waveforms produced by the NRAR Collaboration. Classical and quantum gravity, 31(2): 025012. doi:10.1088/0264-9381/31/2/025012.

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Creators:
Hinder, Ian¹, Author
Buonanno, Alessandra², Author
Boyle, Michael, Author
Etienne, Zachariah B., Author
Healy, James, Author
Johnson-McDaniel, Nathan K., Author
Nagar, Alessandro, Author
Nakano, Hiroyuki, Author
Pan, Yi, Author
Pfeiffer, Harald P., Author
Pürrer, Michael, Author
Reisswig, Christian¹, Author
Scheel, Mark A., Author
Schnetter, Erik, Author
Sperhake, Ulrich, Author
Szilagyi, Bela¹, Author
Tichy, Wolfgang, Author
Wardell, Barry, Author
Zenginoglu, Anıl, Author
Alic, Daniela¹, Author
Bernuzzi, Sebastiano, AuthorBode, Tanja, AuthorBrügmann, Bernd, AuthorBuchman, Luisa T., AuthorCampanelli, Manuela, AuthorChu, Tony, AuthorDamour, Thibault, AuthorGrigsby, Jason D., AuthorHannam, Mark, AuthorHaas, Roland, AuthorHemberger, Daniel A., AuthorHusa, Sascha, AuthorKidder, Lawrence E., AuthorLaguna, Pablo, AuthorLondon, Lionel, AuthorLovelace, Geoffrey, AuthorLousto, Carlos O., AuthorMarronetti, Pedro, AuthorMatzner, Richard A., AuthorMösta, Philipp, AuthorMroué, Abdul, AuthorMüller, Doreen, AuthorMundim, Bruno C., AuthorNerozzi, Andrea, AuthorPaschalidis, Vasileios, AuthorPollney, Denis, AuthorReifenberger, George, AuthorRezzolla, Luciano¹, Author         Shapiro, Stuart L., AuthorShoemaker, Deirdre, AuthorTaracchini, Andrea, AuthorTaylor, Nicholas W., AuthorTeukolsky, Saul A., AuthorThierfelder, Marcus, AuthorWitek, Helvi, AuthorZlochower, Yosef, AuthorThe NRAR Collaboration, Author             more..

Affiliations:
1Astrophysical Relativity, AEI-Golm, MPI for Gravitational Physics, Max Planck Society, ou_24013
2Astrophysical and Cosmological Relativity, AEI-Golm, MPI for Gravitational Physics, Max Planck Society, ou_1933290

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Free keywords: General Relativity and Quantum Cosmology, gr-qc

Abstract: The Numerical-Relativity-Analytical-Relativity (NRAR) collaboration is a
joint effort between members of the numerical relativity, analytical relativity
and gravitational-wave data analysis communities. The goal of the NRAR
collaboration is to produce numerical-relativity simulations of compact
binaries and use them to develop accurate analytical templates for the
LIGO/Virgo Collaboration to use in detecting gravitational-wave signals and
extracting astrophysical information from them. We describe the results of the
first stage of the NRAR project, which focused on producing an initial set of
numerical waveforms from binary black holes with moderate mass ratios and
spins, as well as one non-spinning binary configuration which has a mass ratio
of 10. All of the numerical waveforms are analysed in a uniform and consistent
manner, with numerical errors evaluated using an analysis code created by
members of the NRAR collaboration. We compare previously-calibrated,
non-precessing analytical waveforms, notably the effective-one-body (EOB) and
phenomenological template families, to the newly-produced numerical waveforms.
We find that when the binary's total mass is ~100-200 solar masses, current EOB
and phenomenological models of spinning, non-precessing binary waveforms have
overlaps above 99% (for advanced LIGO) with all of the non-precessing-binary
numerical waveforms with mass ratios <= 4, when maximizing over binary
parameters. This implies that the loss of event rate due to modelling error is
below 3%. Moreover, the non-spinning EOB waveforms previously calibrated to
five non-spinning waveforms with mass ratio smaller than 6 have overlaps above
99.7% with the numerical waveform with a mass ratio of 10, without even
maximizing on the binary parameters.

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Dates: Created: 2013-07-19Date issued: 2014-01

Publication Status: Issued

Pages: 50 pages, 10 figures

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Table of Contents: -

Rev. Type: -

Identifiers: arXiv: 1307.5307
DOI: 10.1088/0264-9381/31/2/025012

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Title: Classical and quantum gravity

Source Genre: Journal

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Publ. Info: Bristol, U.K. : Institute of Physics

Pages: - Volume / Issue: 31 (2) Sequence Number: 025012 Start / End Page: - Identifier: ISSN: 0264-9381
CoNE: https://pure.mpg.de/cone/journals/resource/954925513480_1