A review of gravitational memory and BMS frame fixing in numerical relativity

Mitman, Keefe; Boyle, Michael; Stein, Leo C; Deppe, Nils; Kidder, Lawrence E; Moxon, Jordan; Pfeiffer, Harald P; Scheel, Mark A; Teukolsky, Saul A; Throwe, William; Vu, Nils L

doi:10.1088/1361-6382/ad83c2

Class. Quantum Grav.

2024

DOI: 10.1088/1361-6382/ad83c2

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A review of gravitational memory and BMS frame fixing in numerical relativity

Keefe Mitman,

Michael Boyle,

Leo C Stein

et al.

Abstract: Gravitational memory effects and the BMS freedoms exhibited at future null infinity have recently been resolved and utilized in numerical relativity simulations. With this, gravitational wave models and our understanding of the fundamental nature of general relativity have been vastly improved. In this paper, we review the history and intuition behind memory effects and BMS symmetries, how they manifest in gravitational waves, and how controlling the infinite number of BMS freedoms of numerical relativity simu… Show more

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Cited by 2 publications

References 122 publications

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Displacement memory for flyby

Zhang,

Zhao,

Balog

et al. 2025

Annals of Physics

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Displacement memory for flyby

Zhang,

Zhao,

Balog

et al. 2025

Annals of Physics

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Ringdown amplitudes of nonspinning eccentric binaries

Carullo

2024

J. Cosmol. Astropart. Phys.

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Closed-form expressions for the ringdown complex amplitudes of nonspinning unequal-mass binaries in arbitrarily eccentric orbits are presented. They are built upon 237 numerical simulations contained within the RIT catalog, through the parameterisation introduced in [Phys. Rev. Lett. 132 (2024) 101401]. Global fits for the complex amplitudes, associated to linear quasinormal mode frequencies of the dominant ringdown modes, are obtained in a factorised form immediately applicable to any existing quasi-circular model. Similarly to merger amplitudes, ringdown ones increase by more than 50% compared to the circular case for high impact parameters (medium eccentricities), while strongly suppressed in the low impact parameter (highly eccentric) limit. Such reduction can be explained by a transition between an “orbital-type” and an “infall-type” dynamics. The amplitudes (phases) fits accuracy lies around a few percent (deciradians) for the majority of the dataset, comparable to the accuracy of current state-of-the-art quasi-circular ringdown models, and well within current statistical errors of current LIGO-Virgo-Kagra ringdown observations. These expressions constitute another building block towards the construction of complete general relativistic inspiral-merger-ringdown semi-analytical templates, and allow to extend numerically-informed spectroscopic analyses beyond the circular limit. Such generalisations are key to achieve accurate inference of compact binaries astrophysical properties, and tame astrophysical systematics within observational investigations of strong-field general relativistic dynamics.

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A review of gravitational memory and BMS frame fixing in numerical relativity

Cited by 2 publications

References 122 publications

Displacement memory for flyby

Displacement memory for flyby

Ringdown amplitudes of nonspinning eccentric binaries

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