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Higgs inflation in metric and Palatini formalisms: required suppression of higher dimensional operators

Ryusuke Jinno, Mio Kubota, Kin-ya Oda, Seong Chan Park

2020Journal of Cosmology and Astroparticle Physics45 citationsDOIOpen Access PDF

Abstract

We investigate the sensitivity of Higgs(-like) inflation to higher dimensional operators in the nonminimal couplings and in the potential, both in the metric and Palatini formalisms. We find that, while inflationary predictions are relatively stable against the higher dimensional operators around the attractor point in the metric formalism, they are extremely sensitive in the Palatini one: for the latter, inflationary predictions are spoiled by | 4 | 10 -6 in the nonminimal couplings -16 in the Jordan-frame potential 4 4 + 6 6 + (both in Planck units). This extreme sensitivity results from the absence of attractor in the Palatini formalism. Our study underscores the challenge of realizing inflationary models with the nonminimal coupling in the Palatini formalism.

Topics & Concepts

PhysicsAttractorInflation (cosmology)PlanckMetric (unit)Sensitivity (control systems)Coupling (piping)Higgs bosonTheoretical physicsMathematical physicsCoupling parameterPoint (geometry)CosmologySlow rollStatistical physicsOperator (biology)Cosmological modelCosmic background radiationParticle physicsInflatonExtra dimensionsHubble's lawPlanck massCosmology and Gravitation TheoriesParticle physics theoretical and experimental studiesNoncommutative and Quantum Gravity Theories
Higgs inflation in metric and Palatini formalisms: required suppression of higher dimensional operators | Litcius