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Quadratic, Higgs and hilltop potentials in Palatini gravity

Nilay Bostan

2020Communications in Theoretical Physics31 citationsDOIOpen Access PDF

Abstract

Abstract In this work, we study the theory of inflation with the non-minimally coupled quadratic, standard model Higgs, and hilltop potentials, through ξϕ 2 R term in Palatini gravity. We first analyze observational parameters of the Palatini quadratic potential as functions of ξ for the high- N scenario. In addition to this, taking into account that the inflaton field ϕ has a non-zero vacuum expectation value v after inflation, we display observational parameters of well-known symmetry-breaking potentials. The types of potentials considered are the Higgs potential and its generalizations, namely hilltop potentials in the Palatini formalism for the high- N scenario and the low- N scenario. We calculate inflationary parameters for the Palatini Higgs potential as functions of v for different ξ values, where inflaton values are both ϕ > v and ϕ < v during inflation, as well as calculating observational parameters of the Palatini Higgs potential in the induced gravity limit for high- N scenario. We illustrate differences between the Higgs potential’s effect on ξ versus hilltop potentials, which agree with the observations for the inflaton values for ϕ < v and ξ , in which v ≪ 1 for both these high and low N scenarios. For each considered potential, we also display n s − r values fitted to the current data given by the Keck Array/BICEP2 and Planck collaborations.

Topics & Concepts

InflatonHiggs bosonPhysicsPlanckParticle physicsInflation (cosmology)Higgs fieldFormalism (music)Vacuum expectation valueTheoretical physicsf(R) gravityMathematical physicsHubble's lawQuadratic equationField (mathematics)Limit (mathematics)Current (fluid)Planck massCosmology and Gravitation TheoriesParticle physics theoretical and experimental studiesBlack Holes and Theoretical Physics