Classical and Quantum Initial Conditions for Higgs Inflation

Alberto Salvio; Anupam Mazumdar

doi:10.1016/j.physletb.2015.09.020

Classical and Quantum Initial Conditions for Higgs Inflation

Alberto Salvio
, Anupam Mazumdar

Research output: Contribution to journal › Article › Academic › peer-review

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Abstract

We investigate whether Higgs inflation can occur in the Standard Model starting from natural initial conditions or not. The Higgs has a non-minimal coupling to the Ricci scalar. We confine our attention to the regime where quantum Einstein gravity effects are small in order to have results that are independent of the ultraviolet completion of gravity. At the classical level we find no tuning is required to have successful Higgs inflation, provided the initial homogeneity condition is satisfied. On the other hand, at the quantum level we obtain that the renormalization for large non-minimal coupling requires an additional degree of freedom, unless a tuning of the initial values of the running parameters is made. In order to see that this effect may change the predictions we finally include such degree of freedom in the field content and show that Starobinsky's inflation dominates over Higgs inflation.

Original language	English
Pages (from-to)	194-200
Number of pages	7
Journal	Physics Letters B
Volume	B750
DOIs	https://doi.org/10.1016/j.physletb.2015.09.020
Publication status	Published - 12-Nov-2015
Externally published	Yes

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title = "Classical and Quantum Initial Conditions for Higgs Inflation",

abstract = "We investigate whether Higgs inflation can occur in the Standard Model starting from natural initial conditions or not. The Higgs has a non-minimal coupling to the Ricci scalar. We confine our attention to the regime where quantum Einstein gravity effects are small in order to have results that are independent of the ultraviolet completion of gravity. At the classical level we find no tuning is required to have successful Higgs inflation, provided the initial homogeneity condition is satisfied. On the other hand, at the quantum level we obtain that the renormalization for large non-minimal coupling requires an additional degree of freedom, unless a tuning of the initial values of the running parameters is made. In order to see that this effect may change the predictions we finally include such degree of freedom in the field content and show that Starobinsky's inflation dominates over Higgs inflation.",

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T1 - Classical and Quantum Initial Conditions for Higgs Inflation

AU - Salvio, Alberto

AU - Mazumdar, Anupam

PY - 2015/11/12

Y1 - 2015/11/12

N2 - We investigate whether Higgs inflation can occur in the Standard Model starting from natural initial conditions or not. The Higgs has a non-minimal coupling to the Ricci scalar. We confine our attention to the regime where quantum Einstein gravity effects are small in order to have results that are independent of the ultraviolet completion of gravity. At the classical level we find no tuning is required to have successful Higgs inflation, provided the initial homogeneity condition is satisfied. On the other hand, at the quantum level we obtain that the renormalization for large non-minimal coupling requires an additional degree of freedom, unless a tuning of the initial values of the running parameters is made. In order to see that this effect may change the predictions we finally include such degree of freedom in the field content and show that Starobinsky's inflation dominates over Higgs inflation.

AB - We investigate whether Higgs inflation can occur in the Standard Model starting from natural initial conditions or not. The Higgs has a non-minimal coupling to the Ricci scalar. We confine our attention to the regime where quantum Einstein gravity effects are small in order to have results that are independent of the ultraviolet completion of gravity. At the classical level we find no tuning is required to have successful Higgs inflation, provided the initial homogeneity condition is satisfied. On the other hand, at the quantum level we obtain that the renormalization for large non-minimal coupling requires an additional degree of freedom, unless a tuning of the initial values of the running parameters is made. In order to see that this effect may change the predictions we finally include such degree of freedom in the field content and show that Starobinsky's inflation dominates over Higgs inflation.

U2 - 10.1016/j.physletb.2015.09.020

DO - 10.1016/j.physletb.2015.09.020

M3 - Article

SN - 0370-2693

VL - B750

SP - 194

EP - 200

JO - Physics Letters B

JF - Physics Letters B

ER -

Classical and Quantum Initial Conditions for Higgs Inflation

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