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Main Authors: Revof, Anthi Voulgari, Tiwari, Shubhanshu
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2509.24339
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author Revof, Anthi Voulgari
Tiwari, Shubhanshu
author_facet Revof, Anthi Voulgari
Tiwari, Shubhanshu
contents In this work, we compute the gravitational wave displacement and spin memory effects in de Sitter spacetime. Gravitational waves in asymptotically flat spacetimes are described by the Bondi-Sachs framework, where radiation at null infinity is tied to the BMS group, and memory appears as permanent changes in the geometry. This formalism becomes more complicated when asymptotic flatness is not guaranteed. With a positive cosmological constant, future infinity is spacelike rather than null, and the decay of the fields differs qualitatively from the flat case. We calculate the leading order corrections due to de Sitter spacetime. At leading order, this yields flux-balance relations for displacement and spin memory directly in terms of the cosmological constant and Bondi-Sachs data. We find that the cosmological constant corrections for the leading term are of the order Λ for both displacement and spin memory. These corrections are, as expected, too small to be detected by any current or future gravitational wave observatories.
format Preprint
id arxiv_https___arxiv_org_abs_2509_24339
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle de Sitter Corrections to Gravitational Wave Memory
Revof, Anthi Voulgari
Tiwari, Shubhanshu
General Relativity and Quantum Cosmology
In this work, we compute the gravitational wave displacement and spin memory effects in de Sitter spacetime. Gravitational waves in asymptotically flat spacetimes are described by the Bondi-Sachs framework, where radiation at null infinity is tied to the BMS group, and memory appears as permanent changes in the geometry. This formalism becomes more complicated when asymptotic flatness is not guaranteed. With a positive cosmological constant, future infinity is spacelike rather than null, and the decay of the fields differs qualitatively from the flat case. We calculate the leading order corrections due to de Sitter spacetime. At leading order, this yields flux-balance relations for displacement and spin memory directly in terms of the cosmological constant and Bondi-Sachs data. We find that the cosmological constant corrections for the leading term are of the order Λ for both displacement and spin memory. These corrections are, as expected, too small to be detected by any current or future gravitational wave observatories.
title de Sitter Corrections to Gravitational Wave Memory
topic General Relativity and Quantum Cosmology
url https://arxiv.org/abs/2509.24339