Numerical evolution of black holes with a hyperbolic formulation of general relativity
Abstract
We describe a numerical code that solves Einstein's equations for a Schwarzschild black hole in spherical symmetry, using a hyperbolic formulation introduced by Choquet-Bruhat and York. This is the first time this formulation has been used to evolve a numerical spacetime containing a black hole. We excise the hole from the computational grid in order to avoid the central singularity. We describe in detail a causal differencing method that should allow one to stably evolve a hyperbolic system of equations in three spatial dimensions with an arbitrary shift vector, to second-order accuracy in both space and time. We demonstrate the success of this method in the spherically symmetric case.
Additional Information
© 1997 American Physical Society. (Received 19 June 1997) We thank Manish Parashar for his help with the DAGH system, and Andrew Abrahams, Charles Evans, Ed Seidel, Wai-Mo Suen, and James York for helpful discussions. This work was supported by the NSF Binary Black Hole Grand Challenge Grant No. NSF PHY 93-18152/ASC 93-18152 (ARPA supplemented), NSF Grant No. PHY 94-08378 at Cornell, and NSF Grant No. AST 96-18524 and NASA Grant No. NAG 5-3420 at Illinois.Attached Files
Published - PhysRevD.56.6320.pdf
Submitted - 9708067.pdf
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Additional details
- Eprint ID
- 87500
- Resolver ID
- CaltechAUTHORS:20180629-155912237
- PHY 93-18152
- NSF
- ASC 93-18152
- NSF
- Advanced Research Projects Agency (ARPA)
- PHY 94-08378
- NSF
- AST 96-18524
- NSF
- NAG 5-3420
- NASA
- Created
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2018-07-02Created from EPrint's datestamp field
- Updated
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2021-11-15Created from EPrint's last_modified field