The Physical Squeezed Limit: Consistency Relations at Order q^2

In single-field models of inflation the effect of a long mode with momentum q reduces to a diffeomorphism at zeroth and first order in q. This gives the well-known consistency relations for the n-point functions. At order q^2 the long mode has a physical effect on the short ones, since it induces cu...

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Detalles Bibliográficos
Autores principales: Creminelli, Paolo, Perko, Ashley, Senatore, Leonardo, Simonović, Marko, Trevisan, Gabriele
Lenguaje:eng
Publicado: 2013
Materias:
Astrophysics and Astronomy
Acceso en línea:https://dx.doi.org/10.1088/1475-7516/2013/11/015
http://cds.cern.ch/record/1559430
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author Creminelli, Paolo
Perko, Ashley
Senatore, Leonardo
Simonović, Marko
Trevisan, Gabriele
author_facet Creminelli, Paolo
Perko, Ashley
Senatore, Leonardo
Simonović, Marko
Trevisan, Gabriele
author_sort Creminelli, Paolo
collection CERN
description In single-field models of inflation the effect of a long mode with momentum q reduces to a diffeomorphism at zeroth and first order in q. This gives the well-known consistency relations for the n-point functions. At order q^2 the long mode has a physical effect on the short ones, since it induces curvature, and we expect that this effect is the same as being in a curved FRW universe. In this paper we verify this intuition in various examples of the three-point function, whose behaviour at order q^2 can be written in terms of the power spectrum in a curved universe. This gives a simple alternative understanding of the level of non-Gaussianity in single-field models. Non-Gaussianity is always parametrically enhanced when modes freeze at a physical scale k_{ph, f} shorter than H: f_{NL} \sim (k_{ph, f}/H)^2.
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institution Organización Europea para la Investigación Nuclear
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spelling cern-15594302023-10-04T06:01:52Zdoi:10.1088/1475-7516/2013/11/015http://cds.cern.ch/record/1559430engCreminelli, PaoloPerko, AshleySenatore, LeonardoSimonović, MarkoTrevisan, GabrieleThe Physical Squeezed Limit: Consistency Relations at Order q^2Astrophysics and AstronomyIn single-field models of inflation the effect of a long mode with momentum q reduces to a diffeomorphism at zeroth and first order in q. This gives the well-known consistency relations for the n-point functions. At order q^2 the long mode has a physical effect on the short ones, since it induces curvature, and we expect that this effect is the same as being in a curved FRW universe. In this paper we verify this intuition in various examples of the three-point function, whose behaviour at order q^2 can be written in terms of the power spectrum in a curved universe. This gives a simple alternative understanding of the level of non-Gaussianity in single-field models. Non-Gaussianity is always parametrically enhanced when modes freeze at a physical scale k_{ph, f} shorter than H: f_{NL} \sim (k_{ph, f}/H)^2.In single-field models of inflation the effect of a long mode with momentum q reduces to a diffeomorphism at zeroth and first order in q. This gives the well-known consistency relations for the n-point functions. At order q2 the long mode has a physical effect on the short ones, since it induces curvature, and we expect that this effect is the same as being in a curved FRW universe. In this paper we verify this intuition in various examples of the three-point function, whose behaviour at order q2 can be written in terms of the power spectrum in a curved universe. This gives a simple alternative understanding of the level of non-Gaussianity in single-field models. Non-Gaussianity is always parametrically enhanced when modes freeze at a physical scale kph, f shorter than H: fNL ~ (kph, f/H)2.In single-field models of inflation the effect of a long mode with momentum q reduces to a diffeomorphism at zeroth and first order in q. This gives the well-known consistency relations for the n-point functions. At order q^2 the long mode has a physical effect on the short ones, since it induces curvature, and we expect that this effect is the same as being in a curved FRW universe. In this paper we verify this intuition in various examples of the three-point function, whose behaviour at order q^2 can be written in terms of the power spectrum in a curved universe. This gives a simple alternative understanding of the level of non-Gaussianity in single-field models. Non-Gaussianity is always parametrically enhanced when modes freeze at a physical scale k_{ph, f} shorter than H: f_{NL} \sim (k_{ph, f}/H)^2.arXiv:1307.0503oai:cds.cern.ch:15594302013-07-01
spellingShingle Astrophysics and Astronomy
Creminelli, Paolo
Perko, Ashley
Senatore, Leonardo
Simonović, Marko
Trevisan, Gabriele
The Physical Squeezed Limit: Consistency Relations at Order q^2
title The Physical Squeezed Limit: Consistency Relations at Order q^2
title_full The Physical Squeezed Limit: Consistency Relations at Order q^2
title_fullStr The Physical Squeezed Limit: Consistency Relations at Order q^2
title_full_unstemmed The Physical Squeezed Limit: Consistency Relations at Order q^2
title_short The Physical Squeezed Limit: Consistency Relations at Order q^2
title_sort physical squeezed limit: consistency relations at order q^2
topic Astrophysics and Astronomy
url https://dx.doi.org/10.1088/1475-7516/2013/11/015
http://cds.cern.ch/record/1559430
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