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Main Authors: Lee, Mang Hei Gordon, Pajer, Enrico, Giroux, Mathieu, Hannesdottir, Holmfridur S., Mizera, Sebastian, Pasiecznik, Celina
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2410.00227
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author Lee, Mang Hei Gordon
Pajer, Enrico
Giroux, Mathieu
Hannesdottir, Holmfridur S.
Mizera, Sebastian
Pasiecznik, Celina
author_facet Lee, Mang Hei Gordon
Pajer, Enrico
Giroux, Mathieu
Hannesdottir, Holmfridur S.
Mizera, Sebastian
Pasiecznik, Celina
contents By directly probing the initial conditions of our universe, cosmological surveys offer us a unique observational handle on quantum field theory in curved spacetime with dynamical gravity and might even allow us to glean information about a full theory of quantum gravity. Here we report on recent progress to study the natural observables in the problem, namely cosmological correlators. After setting the stage, we review results from three different approaches. First, we present the in-out formalism as an interesting alternative to the well-known in-in formalism and stress some of its advantages, such as the derivation of recursion relations, correlators cutting rules and a proposal for a de Sitter scattering matrix. Second, we tackle the important open problem of constructing effective theories in curved spacetime, which generally requires an open quantum system approach. Third, we provide an executive summary of general properties of the field-theoretic wavefunction that follow from symmetries, unitarity, causality and locality. We describe how these properties can be leveraged to bootstrap all tree-level results and we discuss loop contributions. 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
id arxiv_https___arxiv_org_abs_2410_00227
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle Records from the S-Matrix Marathon: A Timeless History of Time
Lee, Mang Hei Gordon
Pajer, Enrico
Giroux, Mathieu
Hannesdottir, Holmfridur S.
Mizera, Sebastian
Pasiecznik, Celina
High Energy Physics - Theory
By directly probing the initial conditions of our universe, cosmological surveys offer us a unique observational handle on quantum field theory in curved spacetime with dynamical gravity and might even allow us to glean information about a full theory of quantum gravity. Here we report on recent progress to study the natural observables in the problem, namely cosmological correlators. After setting the stage, we review results from three different approaches. First, we present the in-out formalism as an interesting alternative to the well-known in-in formalism and stress some of its advantages, such as the derivation of recursion relations, correlators cutting rules and a proposal for a de Sitter scattering matrix. Second, we tackle the important open problem of constructing effective theories in curved spacetime, which generally requires an open quantum system approach. Third, we provide an executive summary of general properties of the field-theoretic wavefunction that follow from symmetries, unitarity, causality and locality. We describe how these properties can be leveraged to bootstrap all tree-level results and we discuss loop contributions. 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: A Timeless History of Time
topic High Energy Physics - Theory
url https://arxiv.org/abs/2410.00227