IMEX evolution of scalar fields on curved backgrounds
Abstract
Inspiral of binary black holes occurs over a time-scale of many orbits, far longer than the dynamical time-scale of the individual black holes. Explicit evolutions of a binary system therefore require excessively many time-steps to capture interesting dynamics. We present a strategy to overcome the Courant-Friedrichs-Lewy condition in such evolutions, one relying on modern implicit-explicit ODE solvers and multidomain spectral methods for elliptic equations. Our analysis considers the model problem of a forced scalar field propagating on a generic curved background. Nevertheless, we encounter and address a number of issues pertinent to the binary black hole problem in full general relativity. Specializing to the Schwarzschild geometry in Kerr-Schild coordinates, we document the results of several numerical experiments testing our strategy.
Additional Information
Received 19 August 2008; accepted (in revised version) 16 April 2009; available online 14 May 2009. We would like to thank Thomas Hagstrom, Lawrence Kidder, Lee Lindblom, Geoffrey Lovelace, Michael Minion, Mark Scheel and Saul Teukolsky for useful discussions. Most of the numerical simulations presented here were performed using the Spectral Einstein Code (SpEC) developed at Caltech and Cornell primarily by Larry Kidder, H. P., and Mark Scheel. We also thank the referee for comments which led to the experiment considered in Subsection IVD. Revisions were carried out after S. L. had moved to UNM. This work was supported by grants from the Sherman Fairchild Foundation and from the Brinson Foundation to Caltech; by grants DMS 0554377 and DARPA/AFOSR FA9550-05-1-0108 to Brown University; and by NSF grants PHY-0601459, PHY-0652995 and NASA grant NNG05GG52G to Caltech.Attached Files
Submitted - Lau2009p5971Commun_Comput_Phys.pdf
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Additional details
- Eprint ID
- 16128
- Resolver ID
- CaltechAUTHORS:20090930-112727240
- Sherman Fairchild Foundation
- Brinson Foundation
- DMS 0554377
- NSF
- FA9550-05-1-0108
- DARPA/AFOSA
- PHY-0601459
- NSF
- PHY-0652995
- NSF
- NNG05GG52G
- NASA
- Created
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2009-10-06Created from EPrint's datestamp field
- Updated
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2023-06-02Created from EPrint's last_modified field