Supercooling in radiative symmetry breaking: theory extensions, gravitational wave detection   and primordial black holes

Salvio, Alberto

doi:10.1088/1475-7516/2023/12/046

Cited by 16 publications

(3 citation statements)

References 109 publications

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“…Therefore, at this moment in our best reasonable way, we parametrize the epoch during the reheating process by the e-folding, as noted above, and simply assume the instantaneous reheating without referring to the size of the χ decay rate as classified in Eqs. (33) and (34).…”

Section: T Rmentioning

confidence: 99%

“…In other works [34,35] the ultra-supercooling generated from the Higgs portal scalegenesis coupled to multiple SM singlet scalars have been discussed in a generic manner in light of prediction of the GW signals. In the present study, the SM-like Higgs forms the portal coupling only to a singlet scalar (dilaton), not multiple of scalars like in the literature.…”

Section: Introductionmentioning

confidence: 99%

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Gravitational wave footprints from Higgs-portal scalegenesis with multiple dark chiral scalars*

Zhang 张,

Matsuzaki,

Ishida

2024

Chinese Phys. C

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We discuss the gravitational wave (GW) spectra predicted from the electroweak scalegenesis of the Higgs portal type with a large number of dark chiral flavors, which many flavor QCD would underlie and give the dynamical explanation of the negative Higgs portal coupling required to trigger the electroweak symmetry breaking. We employ the linear-sigma model as the low-energy description of dark many flavor QCD and show that the model undergoes ultra-supercooling due to the produced strong first-order thermal phase transition along the (approximately realized) flat direction based on the Gildener-Weinberg mechanism. Passing through evaluation of the bubble nucleation/percolation, we address the reheating and relaxation processes, which are generically non-thermal and nonadiabatic. Parametrizing the reheating epoch in terms of the efolding number, we propose proper formulae for the redshift effects on the GW frequencies and signal spectra. It then turns out that the ultra-supercooling predicted from the Higgs-portal scalegenesis generically yields none of GW signals with the frequencies as low as nano Hz, instead, prefers to give the higher frequency signals, which still keeps the future prospected detection sensitivity, like at LISA, BBO, and DECIGO, etc. We also find that with large flavors in the dark sector, the GW signals are made further smaller and the peak frequencies higher. Characteristic phenomenological consequences related to the multiple chiral scalars include the prediction of dark pions with the mass much less than TeV scale, which is also briefly addressed. Content from this work may be used under the terms of the Creative Commons Attribution 3.0 licence. Any further distribution of this work must maintain attribution to the author(s) and the title of the work, journal citation and DOI. Article funded by SCOAP3 and published under licence by Chinese Physical Society and the Institute of High Energy Physics of the Chinese Academy of Science and the Institute of Modern Physics of the Chinese Academy of Sciences and IOP Publishing Ltd

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Section: T Rmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Gravitational wave footprints from Higgs-portal scalegenesis with multiple dark chiral scalars*

Zhang 张,

Matsuzaki,

Ishida

2024

Chinese Phys. C

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“…This can be used to test the Standard Model of particle physics (SM) and its extensions. One example is given by phase transitions that admit field-theoretic descriptions both perturbatively (see [8,9] for a model-independent analysis) and non-perturbatively (see e.g. [10][11][12][13][14]).…”

Section: Introductionmentioning

confidence: 99%

(Multi-field) natural inflation and gravitational waves

Salvio,

Sciusco

2024

J. Cosmol. Astropart. Phys.

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We provide a detailed study of natural inflation with a periodic non-minimal coupling, which is a well-motivated inflationary model that admits an explicit UV completion. We demonstrate that this construction can satisfy the most recent observational constraints from Planck and the BICEP/Keck collaborations. We also compute the corresponding relic gravitational wave background due to tensor perturbations and show that future space-borne interferometers, such as DECIGO, BBO and ALIA, may be able to detect it. Next, we extend this analysis and establish the validity of these results in a multi-field model featuring an additional R 2 term in the action, which allows us to interpolate between natural and scalaron (a.k.a. Starobinsky) inflation. We investigate the conditions under which the aforementioned future interferometers will have the capability to differentiate between pure natural inflation and natural-scalaron inflation. The latter analysis could open the door to distinguishing between single-field and multi-field inflation through gravitational wave observations in more general contexts.

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Primordial black holes as dark matter: interferometric tests of phase transition origin

Baldes,

Olea-Romacho

2024

J. High Energ. Phys.

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We show that primordial black holes — in the observationally allowed mass window with fPBH = 1 — formed from late nucleating patches in a first order phase transition imply upcoming gravitational wave interferometers will see a large stochastic background arising from the bubble collisions. As an example, we use a classically scale invariant B – L model, in which the right handed neutrinos explain the neutrino masses and leptogenesis, and the dark matter consists of primordial black holes. The conclusion regarding the gravitational waves is, however, expected to hold model independently for black holes coming from such late nucleating patches.

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Supercooling in radiative symmetry breaking: theory extensions, gravitational wave detection and primordial black holes

Cited by 16 publications

References 109 publications

Gravitational wave footprints from Higgs-portal scalegenesis with multiple dark chiral scalars*

Gravitational wave footprints from Higgs-portal scalegenesis with multiple dark chiral scalars*

(Multi-field) natural inflation and gravitational waves

Primordial black holes as dark matter: interferometric tests of phase transition origin

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