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Main Authors: Jing, Jiliang, Deng, Weike, Long, Sheng, Wang, Jieci
Format: Preprint
Published: 2023
Subjects:
Online Access:https://arxiv.org/abs/2305.03225
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author Jing, Jiliang
Deng, Weike
Long, Sheng
Wang, Jieci
author_facet Jing, Jiliang
Deng, Weike
Long, Sheng
Wang, Jieci
contents This paper extends the research on the self-consistent effective-one-body theory of a real spinless two-body system based on the post-Minkowskian approximation (Science China, 65, 100411, (2022)) to the case of a binary system for the spinning black holes. An effective rotating metric and an improved Hamiltonian for the spinning black hole binaries were constructed. The decoupled equation for the null tetrad component of the gravitational perturbed Weyl tensor $ψ^B_{4}$ in the effective rotating spacetime is found with the help of the gauge transform characteristics of the Weyl tensors. The decoupled equation is then separated between radial and angular variables in the slowly rotating background spacetime, and a formal solution of $ψ^B_{4}$ is obtained. On this basis, the formal expressions of the radiation reaction force and the waveform for the ``plus'' and ``cross'' modes of the gravitational wave are presented. These results, obtained in the same effective spacetime, constitute a self-consistent effective-one-body theory for the spinning black hole binaries based on the post-Minkowskian approximation.
format Preprint
id arxiv_https___arxiv_org_abs_2305_03225
institution arXiv
publishDate 2023
record_format arxiv
spellingShingle Self-consistent effective-one-body theory for spinning binaries based on post-Minkowskian approximation
Jing, Jiliang
Deng, Weike
Long, Sheng
Wang, Jieci
General Relativity and Quantum Cosmology
This paper extends the research on the self-consistent effective-one-body theory of a real spinless two-body system based on the post-Minkowskian approximation (Science China, 65, 100411, (2022)) to the case of a binary system for the spinning black holes. An effective rotating metric and an improved Hamiltonian for the spinning black hole binaries were constructed. The decoupled equation for the null tetrad component of the gravitational perturbed Weyl tensor $ψ^B_{4}$ in the effective rotating spacetime is found with the help of the gauge transform characteristics of the Weyl tensors. The decoupled equation is then separated between radial and angular variables in the slowly rotating background spacetime, and a formal solution of $ψ^B_{4}$ is obtained. On this basis, the formal expressions of the radiation reaction force and the waveform for the ``plus'' and ``cross'' modes of the gravitational wave are presented. These results, obtained in the same effective spacetime, constitute a self-consistent effective-one-body theory for the spinning black hole binaries based on the post-Minkowskian approximation.
title Self-consistent effective-one-body theory for spinning binaries based on post-Minkowskian approximation
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2305.03225