Axion dark matter from Higgs inflation with an intermediate <i>H</i><sub>*</sub>

Tenkanen, Tommi; Visinelli, Luca

doi:10.1088/1475-7516/2019/08/033

Cited by 44 publications

(16 citation statements)

References 288 publications

(409 reference statements)

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“…[93] for a recent review on metric Higgs inflation and Refs. [14,22,30,32,36,39,42,43,46,47,53] for recent studies on Palatini-Higgs inflation. The model is specified by…”

Section: Higgs Inflationmentioning

confidence: 99%

Tracing the high energy theory of gravity: an introduction to Palatini inflation

Tenkanen

2020

Gen Relativ Gravit

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We present an introduction to cosmic inflation in the context of Palatini gravity, which is an interesting alternative to the usual metric theory of gravity. In the latter case only the metric g µν determines the geometry of space-time, whereas in the former case both the metric and the space-time connection Γ λ µν are a priori independent variables -a choice which can lead to a theory of gravity different from the metric one. In scenarios where the field(s) responsible for cosmic inflation are coupled non-minimally to gravity or the gravitational sector is otherwise extended, assumptions of the underlying gravitational degrees of freedom can have a big impact on the observational consequences of inflation. We demonstrate this explicitly by reviewing several interesting and well-motivated scenarios including Higgs inflation, R 2 inflation, and ξ-attractor models. We also discuss some prospects for future research and argue why r = 10 −3 is a particularly important goal for future missions that search for signatures of primordial gravitational waves.

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“…[93] for a recent review on metric Higgs inflation and Refs. [14,22,30,32,36,39,42,43,46,47,53] for recent studies on Palatini-Higgs inflation. The model is specified by…”

Section: Higgs Inflationmentioning

confidence: 99%

Tracing the high energy theory of gravity: an introduction to Palatini inflation

Tenkanen

2020

Gen Relativ Gravit

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“…At the present date, all the comparative studies between the metric and Palatini formulations either consider only a classical tree-level analysis [39][40][41][42][43][44][45][46][47][48][49][50][51][52][53] or assume that the leading contribution to radiative corrections is coming from some other additional particle (inside the Standard Model [54][55][56] or beyond it [57][58][59][60]) rather than the inflaton itself. While there have been several works about self-induced radiative corrections for a nonminimal inflaton in the metric case (e.g.…”

Section: Jhep01(2021)011mentioning

confidence: 99%

“…In figure 1 we are presenting the results for the metric formulation and plotting r vs. n s (a), r vs. ξ (b), ξ vs. n s (c) and λ 0 vs. ξ (d) for λ eff = λ app (cyan), λ eff = λ I (blue, dashed) and λ eff = λ II (magenta, dot-dashed) with N e = 50 e-folds. For reference we also plot predictions of quartic (brown), quadratic (black) and linear (yellow) inflation for N e ∈ [50,60]. The gray areas represent the 1, 2σ allowed regions coming from Planck 2018 data [9].…”

Section: Jhep01(2021)011mentioning

confidence: 99%

Non-minimal (self-)running inflation: metric vs. Palatini formulation

Racioppi

2021

J. High Energ. Phys.

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We consider a model of quartic inflation where the inflaton is coupled non-minimally to gravity and the self-induced radiative corrections to its effective potential are dominant. We perform a comparative analysis considering two different formulations of gravity, metric or Palatini, and two different choices for the renormalization scale, widely known as prescription I and II. Moreover we comment on the eventual compatibility of the results with the final data release of the Planck mission.

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“…These couplings are different in the two approaches. This has been first pointed out in [13] and has attracted the interest of many authors since, , with still continuing activity, [43][44][45][46][47][48][49].…”

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confidence: 99%

Reheating in R2 Palatini inflationary models

Gialamas

Lahanas

2020

Phys. Rev. D

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We consider R 2 inflation in the Palatini gravity assuming the existence of scalar fields, coupled to gravity in the most general manner. These theories, in the Einstein frame, and for one scalar field h, share common features with K -inflation models. We apply this formalism for the study of popular inflationary models, whose potentials are monomials, V ∼ h n , with n a positive even integer. We also study the Higgs model non-minimally coupled to gravity. Although these have been recently studied, in the framework of the Palatini approach, we show that the scalar power spectrum severely constrains these models. Although we do not propose a particular reheating mechanism, we show that the quadratic ∼ h 2 and the Higgs model can survive these constraints with a maximum reheating temperature as large as ∼ 10 15 GeV , when reheating is instantaneous. However, this can be only attained at the cost of a delicate fine-tuning of couplings. Deviations from this fine-tuned values can still yield predictions compatible with the cosmological data, for couplings that lie in very tight range, giving lower reheating temperatures.

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Axion dark matter from Higgs inflation with an intermediate H_*

Cited by 44 publications

References 288 publications

Tracing the high energy theory of gravity: an introduction to Palatini inflation

Tracing the high energy theory of gravity: an introduction to Palatini inflation

Non-minimal (self-)running inflation: metric vs. Palatini formulation

Reheating in R2 Palatini inflationary models

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Axion dark matter from Higgs inflation with an intermediate H*

Cited by 44 publications

References 288 publications

Tracing the high energy theory of gravity: an introduction to Palatini inflation

Tracing the high energy theory of gravity: an introduction to Palatini inflation

Non-minimal (self-)running inflation: metric vs. Palatini formulation

Reheating in R2 Palatini inflationary models

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About

Axion dark matter from Higgs inflation with an intermediate H_*