Black hole evolution by spectral methods
Abstract
Current methods of evolving a spacetime containing one or more black holes are plagued by instabilities that prohibit long-term evolution. Some of these instabilities may be due to the numerical method used, traditionally finite differencing. In this paper, we explore the use of a pseudospectral collocation (PSC) method for the evolution of a spherically symmetric black hole spacetime in one dimension using a hyperbolic formulation of Einstein's equations. We demonstrate that our PSC method is able to evolve a spherically symmetric black hole spacetime forever without enforcing constraints, even if we add dynamics via a Klein-Gordon scalar field. We find that, in contrast with finite-differencing methods, black hole excision is a trivial operation using PSC applied to a hyperbolic formulation of Einstein's equations. We discuss the extension of this method to three spatial dimensions.
Additional Information
© 2000 American Physical Society. (Received 15 May 2000; published 26 September 2000) This work was supported in part by NSF grants PHY-9800737 and PHY-9900672 and NASA grant NAG5-7264 to Cornell University, and NSF grants PHY-9802571 and PHY-9988581 to Wake Forest University. Computations were performed on the National Computational Science Alliance SGI Origin2000, and on the Wake Forest University Department of Physics IBM SP2 with support from an IBM SUR grant.Attached Files
Published - PhysRevD.62.084032.pdf
Submitted - 0005056.pdf
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Additional details
- Eprint ID
- 86807
- Resolver ID
- CaltechAUTHORS:20180605-153821098
- NSF
- PHY-9800737
- NSF
- PHY-9900672
- NASA
- NAG5-7264
- NSF
- PHY-9802571
- NSF
- PHY-9988581
- IBM
- Created
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2018-06-06Created from EPrint's datestamp field
- Updated
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2021-11-15Created from EPrint's last_modified field