Higher memory effects and the post-Newtonian calculation of their gravitational-wave signals
Higher memory effects and the post-Newtonian calculation of their gravitational-wave signals
A new hierarchy of lasting gravitational-wave effects (the higher memory effects) was recently identified in asymptotically flat spacetimes, with the better-known displacement, spin, and center-of-mass memory effects included as the lowest two orders in the set of these effects. These gravitational-wave observables are determined by a set of temporal moments of the news tensor, which describes gravitational radiation from an isolated source. The moments of the news can be expressed in terms of changes in charge-like expressions and integrals over retarded time of flux-like terms, some of which vanish in the absence of radiation. In this paper, we compute expressions for the flux-like contributions to the moments of the news in terms of a set of multipoles that characterize the gravitational-wave strain. We also identify a part of the strain that gives rise to these moments of the news. In the context of post-Newtonian theory, we show that the strain related to the moments of the news is responsible for the many nonlinear, instantaneous terms and 'memory' terms that appear in the post-Newtonian expressions for the radiative multipole moments of the strain. We also apply our results to compute the leading post-Newtonian expressions for the moments of the news and the corresponding strains that are generated during the inspiral of compact binary sources. These results provide a new viewpoint on the waveforms computed from the multipolar post-Minkowski formalism, and they could be used to assess the detection prospects of this new class of higher memory effects.
Bondi Sachs formalism, gravitational waves, memory effect, post Newtonian expansion
Siddhant, S.
87a82083-1fa8-4818-8f5c-1f338ba2dc23
Grant, Alexander M.
497961d0-19ca-42dc-b989-8125d7842bfa
Nichols, David A.
6b6ea720-fe76-4ae0-9db8-4e2877bceb64
24 September 2024
Siddhant, S.
87a82083-1fa8-4818-8f5c-1f338ba2dc23
Grant, Alexander M.
497961d0-19ca-42dc-b989-8125d7842bfa
Nichols, David A.
6b6ea720-fe76-4ae0-9db8-4e2877bceb64
Siddhant, S., Grant, Alexander M. and Nichols, David A.
(2024)
Higher memory effects and the post-Newtonian calculation of their gravitational-wave signals.
Classical and Quantum Gravity, 41 (20), [205014].
(doi:10.1088/1361-6382/ad7663).
Abstract
A new hierarchy of lasting gravitational-wave effects (the higher memory effects) was recently identified in asymptotically flat spacetimes, with the better-known displacement, spin, and center-of-mass memory effects included as the lowest two orders in the set of these effects. These gravitational-wave observables are determined by a set of temporal moments of the news tensor, which describes gravitational radiation from an isolated source. The moments of the news can be expressed in terms of changes in charge-like expressions and integrals over retarded time of flux-like terms, some of which vanish in the absence of radiation. In this paper, we compute expressions for the flux-like contributions to the moments of the news in terms of a set of multipoles that characterize the gravitational-wave strain. We also identify a part of the strain that gives rise to these moments of the news. In the context of post-Newtonian theory, we show that the strain related to the moments of the news is responsible for the many nonlinear, instantaneous terms and 'memory' terms that appear in the post-Newtonian expressions for the radiative multipole moments of the strain. We also apply our results to compute the leading post-Newtonian expressions for the moments of the news and the corresponding strains that are generated during the inspiral of compact binary sources. These results provide a new viewpoint on the waveforms computed from the multipolar post-Minkowski formalism, and they could be used to assess the detection prospects of this new class of higher memory effects.
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Siddhant_2024_Class._Quantum_Grav._41_205014
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Accepted/In Press date: 2 September 2024
Published date: 24 September 2024
Keywords:
Bondi Sachs formalism, gravitational waves, memory effect, post Newtonian expansion
Identifiers
Local EPrints ID: 495647
URI: http://eprints.soton.ac.uk/id/eprint/495647
ISSN: 0264-9381
PURE UUID: eebffc7f-4a9f-4d7c-9786-c14cc7b74218
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Date deposited: 20 Nov 2024 17:33
Last modified: 20 Nov 2024 17:33
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Author:
S. Siddhant
Author:
Alexander M. Grant
Author:
David A. Nichols
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