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NR/HEP: roadmap for the future

NR/HEP: roadmap for the future
NR/HEP: roadmap for the future
Physic in curved spacetime describes a multitude of phenomena, ranging from astrophysics to high-energy physics (HEP). The last few years have witnessed further progress on several fronts, including the accurate numerical evolution of the gravitational field equations, which now allows highly nonlinear phenomena to be tamed. Numerical relativity simulations, originally developed to understand strong-field astrophysical processes, could prove extremely useful to understand HEP processes such as trans-Planckian scattering and gauge–gravity dualities. We present a concise and comprehensive overview of the state-of-the-art and important open problems in the field(s), along with a roadmap for the next years.
0264-9381
Cardoso, Vitor
08c1bdef-b56a-4067-ab37-89a9ece74fb7
Gualtieri, Leonardo
a0183007-8cfc-4cdd-a392-3492ec6b7c22
Sperhake, Ulrich
636ee47a-21ea-4e1e-9095-53476aa89c0e
Chesler, Paul M
4fde556f-638f-4435-9daa-fdc19c6f15f7
Lehner, Luis
1b8c9b8f-a6d4-4448-ab80-1dca2b6ad312
Park, Seong Chan
e8d79405-6652-4543-bffa-a22e5a775b84
Campos Dias, Oscar
f01a8d9b-9597-4c32-9226-53a6e5500a54
Herdeiro, Carlos
2460221c-5f9a-4d26-9ea5-e675b878310e
et al.
Cardoso, Vitor
08c1bdef-b56a-4067-ab37-89a9ece74fb7
Gualtieri, Leonardo
a0183007-8cfc-4cdd-a392-3492ec6b7c22
Herdeiro, Carlos
2460221c-5f9a-4d26-9ea5-e675b878310e
Sperhake, Ulrich
636ee47a-21ea-4e1e-9095-53476aa89c0e
Chesler, Paul M
4fde556f-638f-4435-9daa-fdc19c6f15f7
Lehner, Luis
1b8c9b8f-a6d4-4448-ab80-1dca2b6ad312
Park, Seong Chan
e8d79405-6652-4543-bffa-a22e5a775b84
Campos Dias, Oscar
f01a8d9b-9597-4c32-9226-53a6e5500a54

Cardoso, Vitor, Gualtieri, Leonardo, Sperhake, Ulrich and Campos Dias, Oscar , Herdeiro, Carlos (ed.) , et al. (2012) NR/HEP: roadmap for the future. Classical and Quantum Gravity, 29 (24), [244001]. (doi:10.1088/0264-9381/29/24/244001).

Record type: Article

Abstract

Physic in curved spacetime describes a multitude of phenomena, ranging from astrophysics to high-energy physics (HEP). The last few years have witnessed further progress on several fronts, including the accurate numerical evolution of the gravitational field equations, which now allows highly nonlinear phenomena to be tamed. Numerical relativity simulations, originally developed to understand strong-field astrophysical processes, could prove extremely useful to understand HEP processes such as trans-Planckian scattering and gauge–gravity dualities. We present a concise and comprehensive overview of the state-of-the-art and important open problems in the field(s), along with a roadmap for the next years.

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More information

Published date: 21 November 2012

Identifiers

Local EPrints ID: 474685
URI: http://eprints.soton.ac.uk/id/eprint/474685
DOI: doi:10.1088/0264-9381/29/24/244001
ISSN: 0264-9381
PURE UUID: e0c7440b-7992-47eb-a347-b0ca57d45374
ORCID for Oscar Campos Dias: ORCID iD orcid.org/0000-0003-4855-4750

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Date deposited: 01 Mar 2023 17:39
Last modified: 17 Mar 2024 03:35

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Contributors

Author: Vitor Cardoso
Author: Leonardo Gualtieri
Editor: Carlos Herdeiro
Author: Ulrich Sperhake
Author: Paul M Chesler
Author: Luis Lehner
Author: Seong Chan Park
Author: Oscar Campos Dias ORCID iD
Corporate Author: et al.

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