A hybrid seesaw model and hierarchical neutrino flavor structures based on <i>A</i>4 symmetry

Aoki, M.; Kaneko, Daiki

doi:10.1093/ptep/ptab008

Progress of Theoretical and Experimental Physics

2021

DOI: 10.1093/ptep/ptab008

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A hybrid seesaw model and hierarchical neutrino flavor structures based on A4 symmetry

M. Aoki

Daiki Kaneko

Abstract: We propose a hybrid seesaw model based on A4 flavor symmetry, which generates a large hierarchical flavor structure. In our model, tree-level and one-loop seesaw mechanisms predict different flavor structures in the neutrino mass matrix, and generate a notable hierarchy among them. We find that such a hierarchical structure gives a large effective neutrino mass which can be accessible by next-generation neutrinoless double beta decay experiments. Majorana phases can also be predictable. The A4 flavor symmetry … Show more

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Cited by 4 publications

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Flavor structures of quarks and leptons from flipped SU(5) GUT with A4 modular flavor symmetry

Wang

2023

J. High Energ. Phys.

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We propose to generate the flavor structures of the Standard Model plus neutrinos from flipped SU(5) GUT with A4 modular flavor symmetry. Possible way to assign different moduli values for quarks and leptons in modular GUT scheme is discussed. We propose to reduce the multiple modular symmetries to a single modular symmetry in the low energy effective theory with proper boundary conditions. We classify all possible scenarios in this scheme according to the assignments of the modular A4 representations for matter superfields and give the expressions of the quark and lepton mass matrices predicted by our scheme at the GUT scale. After properly selecting the modular weights for various superfields that can lead to better fitting, we can obtain the best-fit points with the corresponding χ2 values for the sample subscenarios. We find that the flavor structures of the Standard Model plus neutrinos can be fitted perfectly in such a A4 modular flavor GUT scheme with single or two modulus fields. Especially, the $$ {\chi}_{\textrm{total}}^2 $$ χ total 2 of our fitting can be as low as 1.558 for sample IX′ of scenario III even if only a single common modulus field for both quark and lepton sectors is adopted. The most predictive scenario III, in which all superfields transform as triplets of A4, can be fitted much better with two independent moduli fields τq, τl for quark sector and lepton sector ($$ {\chi}_{\textrm{total}}^2 $$ χ total 2 ≈ 95) than that with the single modulus case ($$ {\chi}_{\textrm{total}}^2 $$ χ total 2 ≈ 282.4).

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Flavor structures of quarks and leptons from flipped SU(5) GUT with A4 modular flavor symmetry

Wang

2023

J. High Energ. Phys.

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Neutrino mass and mixing with modular symmetry

Ding,

King

2024

Rep. Prog. Phys.

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This is a review article about neutrino mass and mixing and flavour model building strategies based on modular symmetry. After an introduction to neutrino mass and lepton mixing, we then turn to the main subject of this review, namely a pedagogical introduction to modular symmetry as a candidate for family symmetry, from the bottom-up point of view. After an informal introduction to modular symmetry, we introduce the modular group, and discuss its fixed points and residual symmetry, assuming supersymmetry throughout. We then introduce finite modular groups of level N and modular forms with integer or rational modular weights, corresponding to simple geometric groups or their double or metaplectic covers, including the most general finite modular groups and vector-valued modular forms, with detailed results for N=2,3,4,5. The interplay between modular symmetry and generalized CP symmetry is discussed, deriving CP transformations on matter multiplets and modular forms, highlighting the CP fixed points and their implications. In general, compactification of extra dimensions generally leads to a number of moduli, and modular invariance with factorizable and non-factorizable multiple moduli based on symplectic modular invariance and automorphic forms is reviewed. Modular strategies for understanding fermion mass hierarchies are discussed, including the weighton mechanism, small deviations from fixed points, and texture zeroes. Then examples of modular models are discussed based on single modulus A4 models, a minimal S′4 model of leptons (and quarks), and a multiple moduli model based on three S4 groups capable of reproducing the Littlest Seesaw model. We then extend the discussion to include Grand Unified Theories (GUTs) based on modular (flipped) SU(5) and SO(10). Finally we discuss top-down approaches, including eclectic flavour symmetry and moduli stabilisation.

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Low-energy phenomena of the lepton sector in an A4 symmetry model with heavy inverse seesaw neutrinos

Thanh-Hai

Thuc

et al. 2022

Progress of Theoretical and Experimental Physics

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An extension of the two Higgs doublet model including inverse seesaw neutrinos and neutral Higgs bosons was constructed based on the A4 symmetry in order to explain the recent neutrino oscillation data. This model can distinguish two well-known normal and inverted order schemes of neutrino data once both the effective masses mβ in tritium beta decays and 〈m〉 in the neutrinoless double beta decay are observed. The lepton flavor violating decays of the charged leptons eb → eaγ, μ → 3e, the Standard model-like Higgs boson decays h → ebea, and the μ-e conversions in some nuclei are generated from loop corrections. The experimental data of the branching ratio Br(μ → eγ, 3e) predict that the upper bounds of Br(τ → μγ, eγ) and Br(h → eaeb) are much smaller than the planned experimental sensitivities. In contrast, the μ-e conversions are the promising signals for experiments.

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A hybrid seesaw model and hierarchical neutrino flavor structures based on A4 symmetry

Cited by 4 publications

References 57 publications

Flavor structures of quarks and leptons from flipped SU(5) GUT with A4 modular flavor symmetry

Flavor structures of quarks and leptons from flipped SU(5) GUT with A4 modular flavor symmetry

Neutrino mass and mixing with modular symmetry

Low-energy phenomena of the lepton sector in an A4 symmetry model with heavy inverse seesaw neutrinos

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