Flavor mixing and C P violation from the interplay of an S4 modular group and a generalized C P symmetry

Flavor mixing and C P violation from the interplay of an S4 modular group and a generalized C P symmetry

We have performed a systematical analysis of lepton and quark mass models based on Γ4 ≅ S4 modular symmetry with generalized C P symmetry. We considered both cases; neutrinos are Majorana particles and Dirac particles. All possible nontrivial representation assignments of matter fields are considere...

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Veröffentlicht in:Physical review. D 2021-10, Vol.104 (7), p.1
Hauptverfasser: Qu, Bu-Yao, Liu, Xiang-Gan, Chen, Ping-Tao, Ding, Gui-Jun
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Sprache:eng
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Asymmetry
Couplings
Fermions
Flavor (particle physics)
Leptons
Mathematical models
Neutrinos
Parameters
Quark models
Quarks
Symmetry
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container_issue 7
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container_title Physical review. D
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creator Qu, Bu-Yao
Liu, Xiang-Gan
Chen, Ping-Tao
Ding, Gui-Jun
description We have performed a systematical analysis of lepton and quark mass models based on Γ4 ≅ S4 modular symmetry with generalized C P symmetry. We considered both cases; neutrinos are Majorana particles and Dirac particles. All possible nontrivial representation assignments of matter fields are considered, and the most general form of fermion mass matrices are given. The phenomenologically viable models with the lowest number of free parameters together with the results of fit are presented. We find out nine lepton models with seven real free parameters (including the real and imaginary parts of modulus for Majorana neutrinos) which can accommodate the lepton masses and neutrino oscillation data. The prediction for leptogenesis is studied in an example lepton model. The observed baryon asymmetry as well as lepton masses and mixing angles can be explained. For Dirac neutrinos, four lepton models with five real free couplings are compatible with the experimental data. Ten quark models containing seven couplings are found to be able to accommodate the hierarchical quark masses and mixing angles and the C P violation phase. Furthermore, the S4 modular symmetry can provide a unified description of lepton and quark flavor structure, and a benchmark model is presented.
doi_str_mv 10.1103/PhysRevD.104.076001
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source American Physical Society Journals
subjects Asymmetry
Couplings
Fermions
Flavor (particle physics)
Leptons
Mathematical models
Neutrinos
Parameters
Quark models
Quarks
Symmetry
title Flavor mixing and C P violation from the interplay of an S4 modular group and a generalized C P symmetry
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