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Main Author: Smirnov, Alexei Y
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2507.19278
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author Smirnov, Alexei Y
author_facet Smirnov, Alexei Y
contents Relevance of the discrete symmetries for explanation of the observed flavor structures in the leptonic sector is considered. Achievements of the "traditional'' discrete symmetry approach and the modular symmetry approach are confronted. Minimal models with small number of parameters do not work. Complication of symmetry prescriptions allow to introduce new free parameters and thus describe the data but simultaneously bring two connected problems: (i) problem of "missing" representations, and (ii) problem of selection of certain point in huge discrete parameter space formed by possible charge assignments. Both problems must be addressed in complete model. Alternatively, one can keep minimal symmetry prescription but extend models introducing new physics unrelated to the original flavor symmetry. The low energy predictions can be "polluted" by additional physics such as effects of coupling to hidden sector, RGE running, decoupling of heavy degrees of freedom, mixing with sterile neutrinos, {\it etc.} The set up with discrete symmetries in the Hidden sector which communicates to the visible one via the neutrino portal and the basis fixing symmetry still looks promising.
format Preprint
id arxiv_https___arxiv_org_abs_2507_19278
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Is flavor discrete?
Smirnov, Alexei Y
High Energy Physics - Phenomenology
Relevance of the discrete symmetries for explanation of the observed flavor structures in the leptonic sector is considered. Achievements of the "traditional'' discrete symmetry approach and the modular symmetry approach are confronted. Minimal models with small number of parameters do not work. Complication of symmetry prescriptions allow to introduce new free parameters and thus describe the data but simultaneously bring two connected problems: (i) problem of "missing" representations, and (ii) problem of selection of certain point in huge discrete parameter space formed by possible charge assignments. Both problems must be addressed in complete model. Alternatively, one can keep minimal symmetry prescription but extend models introducing new physics unrelated to the original flavor symmetry. The low energy predictions can be "polluted" by additional physics such as effects of coupling to hidden sector, RGE running, decoupling of heavy degrees of freedom, mixing with sterile neutrinos, {\it etc.} The set up with discrete symmetries in the Hidden sector which communicates to the visible one via the neutrino portal and the basis fixing symmetry still looks promising.
title Is flavor discrete?
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2507.19278