Measuring orbital eccentricity and periastron advance in quasicircular black hole simulations
Abstract
We compare different methods of computing the orbital eccentricity of quasicircular binary black-hole systems using the orbital variables and gravitational-wave phase and frequency. For eccentricities of about a per cent, most methods work satisfactorily. For small eccentricity, however, the gravitational-wave phase allows a particularly clean and reliable measurement of the eccentricity. Furthermore, we measure the decay of the orbital eccentricity during the inspiral and find reasonable agreement with post-Newtonian results. Finally, we measure the periastron advance of nonspinning binary black holes, and we compare them to post-Newtonian approximations. With the low uncertainty in the measurement of the periastron advance, we positively detect deviations between fully numerical simulations and post-Newtonian calculations.
Additional Information
© 2010 The American Physical Society. (Received 1 May 2010; published 8 December 2010) We thank Geoffrey Lovelace for providing initial data for the large eccentricity run, and Luisa Buchman and Mark Scheel for providing the data for the unequal mass simulations. Results obtained in this paper were produced using the Spectral Einstein Code (SpEC) [50]. This work is supported in part by grants from the Sherman Fairchild Foundation to Caltech and Cornell, and from the Brinson Foundation to Caltech; by NSF Grant No. PHY-0601459, Grant No. PHY-0652995, and Grant No. DMS-0553302 at Caltech; by NSF Grant No. PHY-0652952, Grant No. DMS-0553677, Grant No. PHY-0652929, and NASA Grant No. NNX09AF96G at Cornell. H. P. gratefully acknowledges support from the NSERC of Canada, from the Canada Research Chairs Program, and from the Canadian Institute for Advanced Research.Attached Files
Published - PhysRevD.82.124016.pdf
Submitted - 1004.4697.pdf
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Additional details
- Alternative title
- Measuring orbital eccentricity and periastron advance in quasi-circular black hole simulations
- Eprint ID
- 86817
- Resolver ID
- CaltechAUTHORS:20180605-164334568
- Sherman Fairchild Foundation
- Brinson Foundation
- PHY-0601459
- NSF
- PHY-0652995
- NSF
- DMS-0553302
- NSF
- PHY-0652952
- NSF
- DMS-0553677
- NSF
- PHY-0652929
- NSF
- NNX09AF96G
- NASA
- Natural Sciences and Engineering Research Council of Canada (NSERC)
- Canada Research Chairs Program
- Canadian Institute for Advanced Research (CIFAR)
- Created
-
2018-06-06Created from EPrint's datestamp field
- Updated
-
2021-11-15Created from EPrint's last_modified field
- Caltech groups
- TAPIR