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Letter to the editor. Novel finite-differencing techniques for numerical relativity: application to black hole excision

Letter to the editor. Novel finite-differencing techniques for numerical relativity: application to black hole excision
Letter to the editor. Novel finite-differencing techniques for numerical relativity: application to black hole excision
We use rigorous techniques from numerical analysis of hyperbolic equations in bounded domains to construct stable finite-difference schemes for Numerical Relativity, in particular for their use in black hole excision. As an application, we present 3D simulations of a scalar field propagating in a Schwarzschild black hole background.
L245-L252
Calabrese, Gioel
b6d18b27-64cd-426f-b86e-1b3a848f03ed
Lehner, Luis
1b8c9b8f-a6d4-4448-ab80-1dca2b6ad312
Neilsen, David
f1187d99-0b22-4126-830a-0d238e32e680
Pullin, Jorge
4c0fa15e-1ba7-49c4-bfc6-f46944951a9f
Reula, Oscar
1d224690-9074-4778-ba9e-d90bf7ef6aeb
Sarbach, Olivier
9b1b946c-5ff3-4eeb-b685-915c662edff8
Tiglio, Manuel
70c1e9ee-b30c-4354-af43-1bd3b4b6af24
Calabrese, Gioel
b6d18b27-64cd-426f-b86e-1b3a848f03ed
Lehner, Luis
1b8c9b8f-a6d4-4448-ab80-1dca2b6ad312
Neilsen, David
f1187d99-0b22-4126-830a-0d238e32e680
Pullin, Jorge
4c0fa15e-1ba7-49c4-bfc6-f46944951a9f
Reula, Oscar
1d224690-9074-4778-ba9e-d90bf7ef6aeb
Sarbach, Olivier
9b1b946c-5ff3-4eeb-b685-915c662edff8
Tiglio, Manuel
70c1e9ee-b30c-4354-af43-1bd3b4b6af24

Calabrese, Gioel, Lehner, Luis, Neilsen, David, Pullin, Jorge, Reula, Oscar, Sarbach, Olivier and Tiglio, Manuel (2003) Letter to the editor. Novel finite-differencing techniques for numerical relativity: application to black hole excision. Classical and Quantum Gravity, 20, L245-L252. (doi:10.1088/0264-9381/20/20/102).

Record type: Article

Abstract

We use rigorous techniques from numerical analysis of hyperbolic equations in bounded domains to construct stable finite-difference schemes for Numerical Relativity, in particular for their use in black hole excision. As an application, we present 3D simulations of a scalar field propagating in a Schwarzschild black hole background.

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Published date: 2003

Identifiers

Local EPrints ID: 40857
URI: http://eprints.soton.ac.uk/id/eprint/40857
DOI: doi:10.1088/0264-9381/20/20/102
PURE UUID: 091dc7c1-6607-48c2-8299-fa3375a04dbc

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Date deposited: 11 Jul 2006
Last modified: 15 Mar 2024 08:23

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Contributors

Author: Gioel Calabrese
Author: Luis Lehner
Author: David Neilsen
Author: Jorge Pullin
Author: Oscar Reula
Author: Olivier Sarbach
Author: Manuel Tiglio

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