Cosmological implications of EW vacuum instability: constraints on the Higgs-curvature coupling from inflation

Mantziris, Andreas

doi:10.22323/1.398.0127

Proceedings of the European Physical Society Conference on High Energy Physics — PoS(EPS-HEP2021) 2022

DOI: 10.22323/1.398.0127

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Cosmological implications of EW vacuum instability: constraints on the Higgs-curvature coupling from inflation

Andreas Mantziris¹

Abstract: The current experimentally measured parameters of the Standard Model (SM) suggest that our Universe lies in a metastable electroweak vacuum, where the Higgs field is prone to vacuum decay to a lower state with catastrophic consequences. Our measurements dictate that such an event has not taken place yet, despite the many different mechanisms that could have triggered it in our past light-cone. The focus of our work has been to calculate the probability of the false vacuum to decay during the period of inflatio… Show more

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2024

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The rise and fall of the Standard-Model Higgs: electroweak vacuum stability during kination

Laverda,

Rubio

2024

J. High Energ. Phys.

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In this paper we investigate the vacuum stability of the non-minimally coupled Standard-Model Higgs during a phase of kinetic domination following the end of inflation. The non-minimal coupling to curvature stabilises the Higgs fluctuations during inflation while driving them towards the instability scale during kination, when they can classically overcome the potential barrier separating the false electroweak vacuum from the true one at super-Planckian field values. Avoiding the instability of the Standard-Model vacuum sets an upper bound on the inflationary scale that depends both on the strength of the non-minimal interaction and on the top quark Yukawa coupling. Classical vacuum stability is guaranteed if the gravitationally-produced energy density is smaller than the height of barrier in the effective potential. Interestingly enough, thanks to the explosive particle production in the tachyonic phase, the Higgs itself can be also appointed to the role of reheaton field responsible for the onset of the hot Big Bang era, setting an additional lower bound on the inflationary scale $$ {\mathcal{H}}_{\textrm{inf}} $$ H inf ≳ 105.5 GeV. Overall, these constraints favour lower masses for the top quark, in agreement with the current measurements of the top quark pole mass. We perform our analysis semi-analytically in terms of the one-loop and three-loop running of the Standard-Model Higgs self-coupling and make use of lattice-based parametric formulas for studying the (re)heating phase derived in arXiv:2307.03774. For a specific choice of mt = 171.3 GeV we perform also an extensive numerical scanning of the parameter space via classical lattice simulations, identifying stable/unstable regions and supporting the previous analytical arguments. For this fiducial value, the heating of the Universe is achieved at temperatures in the range 10−2–109 GeV.

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The rise and fall of the Standard-Model Higgs: electroweak vacuum stability during kination

Laverda,

Rubio

2024

J. High Energ. Phys.

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Cosmological implications of EW vacuum instability: constraints on the Higgs-curvature coupling from inflation

Cited by 1 publication

References 14 publications

The rise and fall of the Standard-Model Higgs: electroweak vacuum stability during kination

The rise and fall of the Standard-Model Higgs: electroweak vacuum stability during kination

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