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Pilaftsis and T.E.J

· 2005 · hep-ph · arXiv hep-ph/0506107

5 Pith papers cite this work. Polarity classification is still indexing.

5 Pith papers citing it
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abstract

We study minimal scenarios of resonant leptogenesis near the electroweak phase transition. These models offer a number of testable phenomenological signatures for low-energy experiments and future high-energy colliders. Our study extends previous analyses of the relevant network of Boltzmann equations, consistently taking into account effects from out of equilibrium sphalerons and single lepton flavours. We show that the effects from single lepton flavours become very important in variants of resonant leptogenesis, where the observed baryon asymmetry in the Universe is created by lepton-to-baryon conversion of an individual lepton number, for example that of the tau lepton. The predictions of such resonant tau-leptogenesis models for the final baryon asymmetry are almost independent of the initial lepton-number and heavy neutrino abundances. These models accommodate the current neutrino data and have a number of testable phenomenological implications. They contain electroweak-scale heavy Majorana neutrinos with appreciable couplings to electrons and muons, which can be probed at future e+ e- and mu+ mu- high-energy colliders. In particular, resonant tau-leptogenesis models predict sizeable 0\nu\beta\beta decay, as well as e- and mu-number-violating processes, such as mu -> e gamma and mu -> e conversion in nuclei, with rates that are within reach of the experiments proposed by the MEG and MECO collaborations.

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hep-ph 5

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2026 5

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UNVERDICTED 5

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representative citing papers

Dominant Thermal Resonant Mechanism for Low-Scale Leptogenesis

hep-ph · 2026-01-22 · unverdicted · novelty 7.0

Thermal Resonant Leptogenesis produces the observed baryon asymmetry via a dominant thermal channel from Higgs decays and lepton-doublet coherences, without requiring quasi-degenerate sterile neutrinos.

A Model of Annihilogenesis

hep-ph · 2026-04-30 · unverdicted · novelty 7.0

An explicit model generates the observed baryon asymmetry via annihilogenesis of right-handed neutrinos confined in false-vacuum pockets during a strong first-order phase transition, relaxing the usual light-neutrino-mass upper bound on the CP asymmetry.

Solving Cosmological Puzzles using Finite Temperature $\nu$SMEFT

hep-ph · 2026-04-23 · unverdicted · novelty 5.0

A minimal extension of the Standard Model with three heavy Majorana neutrinos simultaneously realizes fermionic dark matter, a strong first-order electroweak phase transition, and low-scale resonant leptogenesis consistent with neutrino data.

citing papers explorer

Showing 5 of 5 citing papers.

  • Dominant Thermal Resonant Mechanism for Low-Scale Leptogenesis hep-ph · 2026-01-22 · unverdicted · none · ref 24 · internal anchor

    Thermal Resonant Leptogenesis produces the observed baryon asymmetry via a dominant thermal channel from Higgs decays and lepton-doublet coherences, without requiring quasi-degenerate sterile neutrinos.

  • A Model of Annihilogenesis hep-ph · 2026-04-30 · unverdicted · none · ref 34

    An explicit model generates the observed baryon asymmetry via annihilogenesis of right-handed neutrinos confined in false-vacuum pockets during a strong first-order phase transition, relaxing the usual light-neutrino-mass upper bound on the CP asymmetry.

  • Low-Scale Leptogenesis from Resonant Thermal Lepton Flavour Coherences hep-ph · 2026-04-07 · unverdicted · none · ref 16

    Resonant thermal lepton-flavour coherences at two loops enable dominant low-scale leptogenesis for both Dirac and Majorana singlet neutrinos down to GeV masses without mass degeneracy.

  • Solving Cosmological Puzzles using Finite Temperature $\nu$SMEFT hep-ph · 2026-04-23 · unverdicted · none · ref 105

    A minimal extension of the Standard Model with three heavy Majorana neutrinos simultaneously realizes fermionic dark matter, a strong first-order electroweak phase transition, and low-scale resonant leptogenesis consistent with neutrino data.

  • Light neutrinos, Dark matter and leptogenesis near electroweak scale and $Z_4$ symmetry hep-ph · 2026-04-06 · unverdicted · none · ref 46

    Z4-symmetric Type I seesaw fits neutrino data with minimal parameters and enables freeze-in dark matter plus resonant leptogenesis via soft symmetry breaking.