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Hauptverfasser: de Rham, Claudia, Giblin Jr, John T., Tolley, Andrew J.
Format: Preprint
Veröffentlicht: 2024
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Online-Zugang:https://arxiv.org/abs/2402.05898
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author de Rham, Claudia
Giblin Jr, John T.
Tolley, Andrew J.
author_facet de Rham, Claudia
Giblin Jr, John T.
Tolley, Andrew J.
contents The class of Galileon scalar fields theories encapsulate the Vainshtein screening mechanism which is characteristic of a large range of infrared modified theories of gravity. Such theories can lead to testable departures from General Relativity through fifth forces and new scalar modes of gravitational radiation. However, the inherent non-linearity of the Vainshtein mechanism has limited analytic attempts to describe Galileon theories with both cubic and quartic interactions. To improve on this, we perform direct numerical simulations of the quartic Galileon model for a rotating binary source and infer the power spectrum of given multipoles. To tame numerical instabilities we utilize a low-pass filter, extending previous work on the cubic Galileon. Our findings show that the multipole expansion is well-defined and under control. Moreover, our results confirm that despite being a non-linear scalar, the dominant Galileon radiation is quadrupole, and we find a new scaling behaviour deep inside the Vainshtein region.
format Preprint
id arxiv_https___arxiv_org_abs_2402_05898
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Scalar Radiation with a Quartic Galileon
de Rham, Claudia
Giblin Jr, John T.
Tolley, Andrew J.
High Energy Physics - Theory
Cosmology and Nongalactic Astrophysics
The class of Galileon scalar fields theories encapsulate the Vainshtein screening mechanism which is characteristic of a large range of infrared modified theories of gravity. Such theories can lead to testable departures from General Relativity through fifth forces and new scalar modes of gravitational radiation. However, the inherent non-linearity of the Vainshtein mechanism has limited analytic attempts to describe Galileon theories with both cubic and quartic interactions. To improve on this, we perform direct numerical simulations of the quartic Galileon model for a rotating binary source and infer the power spectrum of given multipoles. To tame numerical instabilities we utilize a low-pass filter, extending previous work on the cubic Galileon. Our findings show that the multipole expansion is well-defined and under control. Moreover, our results confirm that despite being a non-linear scalar, the dominant Galileon radiation is quadrupole, and we find a new scaling behaviour deep inside the Vainshtein region.
title Scalar Radiation with a Quartic Galileon
topic High Energy Physics - Theory
Cosmology and Nongalactic Astrophysics
url https://arxiv.org/abs/2402.05898