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Autores principales: Correia, Miguel, Hannesdottir, Holmfridur S., Isabella, Giulia, Wolz, Anna M., Zhou, Zihan, Giroux, Mathieu, Mizera, Sebastian, Pasiecznik, Celina
Formato: Preprint
Publicado: 2024
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Acceso en línea:https://arxiv.org/abs/2412.11649
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author Correia, Miguel
Hannesdottir, Holmfridur S.
Isabella, Giulia
Wolz, Anna M.
Zhou, Zihan
Giroux, Mathieu
Mizera, Sebastian
Pasiecznik, Celina
author_facet Correia, Miguel
Hannesdottir, Holmfridur S.
Isabella, Giulia
Wolz, Anna M.
Zhou, Zihan
Giroux, Mathieu
Mizera, Sebastian
Pasiecznik, Celina
contents These lecture notes explain how classical gravitational physics emerges from scattering amplitudes. We emphasize the role of different kinematic regimes in probing various aspects of bound and unbound problems, as illustrated by the Hydrogen atom example. Classical predictions of General Relativity, such as the Shapiro time delay and perihelion precession, emerge from these considerations. We also explain a number of recent approaches to probing black hole physics from the perspective of amplitudes, including applications of worldline effective field theory in astrophysics, predictions of gravitational waveforms, and the hierarchical three-body problem. These notes are based on a series of lectures held during the S-Matrix Marathon workshop at the Institute for Advanced Study on 11--22 March 2024.
format Preprint
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institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Records from the S-Matrix Marathon: Gravitational Physics from Scattering Amplitudes
Correia, Miguel
Hannesdottir, Holmfridur S.
Isabella, Giulia
Wolz, Anna M.
Zhou, Zihan
Giroux, Mathieu
Mizera, Sebastian
Pasiecznik, Celina
High Energy Physics - Theory
These lecture notes explain how classical gravitational physics emerges from scattering amplitudes. We emphasize the role of different kinematic regimes in probing various aspects of bound and unbound problems, as illustrated by the Hydrogen atom example. Classical predictions of General Relativity, such as the Shapiro time delay and perihelion precession, emerge from these considerations. We also explain a number of recent approaches to probing black hole physics from the perspective of amplitudes, including applications of worldline effective field theory in astrophysics, predictions of gravitational waveforms, and the hierarchical three-body problem. These notes are based on a series of lectures held during the S-Matrix Marathon workshop at the Institute for Advanced Study on 11--22 March 2024.
title Records from the S-Matrix Marathon: Gravitational Physics from Scattering Amplitudes
topic High Energy Physics - Theory
url https://arxiv.org/abs/2412.11649