Field redefinitions, perturbative unitarity and Higgs inflation

Field redefinitions, perturbative unitarity and Higgs inflation

A bstract For inflation driven by the Higgs field coupled non-minimally to gravity, we study the cutoff energy scale above which perturbation theory breaks down. Employing the metric formulation, we first give an overview of known results and then provide a new way to calculate a lower bound on the...

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Veröffentlicht in:The journal of high energy physics 2022-06, Vol.2022 (6), p.132-21, Article 132
Hauptverfasser: Karananas, Georgios K., Shaposhnikov, Mikhail, Zell, Sebastian
Format: Artikel
Sprache:eng
Schlagworte:
Classical and Quantum Gravitation
Dimensional analysis
Early Universe Particle Physics
Effective Field Theories
Elementary Particles
Gravity
Higgs Properties
High energy physics
Lower bounds
Mathematical analysis
Parameterization
Particle physics
Perturbation theory
Physics
Physics and Astronomy
Quantum Field Theories
Quantum Field Theory
Quantum Physics
Regular Article - Theoretical Physics
Relativity Theory
Scattering Amplitudes
String Theory
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Zusammenfassung:A bstract For inflation driven by the Higgs field coupled non-minimally to gravity, we study the cutoff energy scale above which perturbation theory breaks down. Employing the metric formulation, we first give an overview of known results and then provide a new way to calculate a lower bound on the cutoff. Our approach neither relies on a gauge choice nor does it require any calculation of amplitudes. Instead, it exploits the fact that the S-matrix is invariant under field redefinitions. In agreement with previous findings, we demonstrate that the cutoff is significantly higher during inflation than in vacuum, which ensures the robustness of semi-classical predictions. Along the way, we generalize our findings to the Palatini formulation and comment on a useful parametrization of the Higgs doublet in both scenarios.
ISSN:1029-8479
1029-8479
DOI:10.1007/JHEP06(2022)132