High scale electroweak phase transition: baryogenesis &amp; symmetry non-restoration

Baldes, Iason; Servant, Géraldine

doi:10.1007/jhep10(2018)053

Cited by 84 publications

(98 citation statements)

References 66 publications

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“…(11b), such that at finite temperature the h = f π minimum is favoured. This can in principle realise the idea of electro-weak baryogenesis above the weak scale [61][62][63] (see also [19]) without requiring a large number of fields.…”

Section: Thermal Tunnelingmentioning

confidence: 91%

“…If this happens at a temperature T 130 GeV electro-weak sphalerons remain frozen and the baryon asymmetry is not washed out. As argued in [61][62][63], the advantage of having electro-weak baryogenesis well above the weak scale is that the required CP violation is much less constrained than in the increasingly challenged models at the weak scale.…”

Section: Quantum Vacuum Decaymentioning

confidence: 99%

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Coset cosmology

Luzio

Redi

Струмиа

et al. 2019

J. High Energ. Phys.

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We show that the potential of Nambu-Goldstone bosons can have two or more local minima e.g. at antipodal positions in the vacuum manifold. This happens in many models of composite Higgs and of composite Dark Matter. Trigonometric potentials lead to unusual features, such as symmetry non-restoration at high temperature. In some models, such as the minimal SO(5)/SO(4) composite Higgs with fermions in the fundamental representation, the two minima are degenerate giving cosmological domain-wall problems. Otherwise, an unusual cosmology arises, that can lead to supermassive primordial black holes; to vacuum or thermal decays; to a high-temperature phase of broken SU(2) L , possibly interesting for baryogenesis.

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Section: Thermal Tunnelingmentioning

confidence: 91%

Section: Quantum Vacuum Decaymentioning

confidence: 99%

Coset cosmology

Luzio

Redi

Струмиа

et al. 2019

J. High Energ. Phys.

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“…Already, there are innumerable studies of BSM ideas for early universe cosmology and astrophysics that will be tested and excluded/confirmed, leading to a vastly deeper understanding of nature. These ideas of testing new physics [36] are wide-ranging, including probes of first-order phase transitions [24], tests of early universe equation of state [48,49,93], probes of axions physics [90], tests of and early kination phase in the early universe, and much more, all made possible by the discovery of gravity waves.…”

Section: Gravity Waves and Higgs Boson Discoveries Through The Bsm Lensmentioning

confidence: 99%

Discovery Goals and Opportunities: A Defense of BSM-Oriented Exploration over Signalism

Wells

2020

SpringerBriefs in Physics

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Discoveries come through exclusions, confirmations or revolutionary findings with respect to a theory canon populated by the Standard Model (SM) and beyond the SM (BSM) theories. Guaranteed discoveries are accomplished only through pursuit of BSM exclusion/confirmation, and thus require investment in the continual formation and analysis of a vibrant theory canon combined with investment in experiment with demonstrated capacity to make BSM exclusions/confirmations. Risks develop when steering away from BSM-oriented work toward its methodological rival, "signalism," which seeks to realize SM falsification or revolutionary discoveries outside the context of any BSM rationale. It is argued that such an approach leads to inscrutable exertions that reduce prospects for all discovery. The concepts are applied to the European Strategy Update, which seeks to identify future investments in forefront experiment that bring a balance of guaranteed and prospective value. 1

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“…This is illustrated on fig. 2 where the Yukawa coupling is shown as a function of φ for different choices of n. The choice of n is a parametrisation of the trajectory in the (Higgs, Flavon) field space during the phase transition, which can be determined through a dedicated analysis of tunneling in a 2-field space [5][6][7]. Typically, for a simple polynomial potential, the lighter the flavon, the larger n can be.…”

Section: New Cp-violating Sources From Varying Yukawasmentioning

confidence: 99%

“…On the other hand, in most cases, Yukawa couplings are dynamical and it is natural to investigate about their cosmological evolution. In this article we report on recent work connecting flavour cosmology and baryogenesis [1][2][3][4][5][6][7].…”

Section: Introductionmentioning

confidence: 99%

The serendipity of electroweak baryogenesis

Servant

2018

Phil. Trans. R. Soc. A.

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The origin of the matter-antimatter asymmetry of the universe remains unexplained in the Standard Model (SM) of particle physics. The origin of the flavour structure is another major puzzle of the theory. In this article, we report on recent work attempting to link the two themes through the appealing framework of electroweak (EW) baryogenesis. We show that Yukawa couplings of SM fermions can be the source of CP violation for EW baryogenesis if they vary at the same time as the Higgs is acquiring its vacuum expectation value, offering new avenues for EW baryogenesis. The advantage of this approach is that it circumvents the usual severe bounds from electric dipole moments. These ideas apply if the mechanism explaining the flavour structure of the SM is connected to EW symmetry breaking, as motivated for instance in Randall-Sundrum or Composite Higgs models. We compute the resulting baryon asymmetry for different configurations of the Yukawa coupling variation across the bubble wall and show that it can naturally be of the right order.This article is part of the Theo Murphy meeting issue 'Higgs cosmology'.

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High scale electroweak phase transition: baryogenesis & symmetry non-restoration

Cited by 84 publications

References 66 publications

Coset cosmology

Coset cosmology

Discovery Goals and Opportunities: A Defense of BSM-Oriented Exploration over Signalism

The serendipity of electroweak baryogenesis

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