The University of Southampton
University of Southampton Institutional Repository

Neutrino mass and mixing models with eclectic flavor symmetry Δ(27)⋊T′

Neutrino mass and mixing models with eclectic flavor symmetry Δ(27)⋊T′
Neutrino mass and mixing models with eclectic flavor symmetry Δ(27)⋊T′
The Kähler potentials of modular symmetry models receive unsuppressed contributions which may be controlled by a flavor symmetry, where the combination of the two symmetry types is referred to as eclectic flavor symmetry. After briefly reviewing the consistency conditions of eclectic flavor symmetry models, including with generalised (g)CP, we perform a comprehensive bottom-up study of eclectic flavor symmetry models based on Ω(1)≅Δ(27)⋊T′, consisting of the flavor symmetry Δ(27) in a semi-direct product with the modular symmetry T′. The modular transformations of different Δ(27) multiplets are given by solving the consistency condition. The eight nontrivial singlets of Δ(27) are related by T′ modular symmetry, and they have to be present or absent simultaneously in any Ω(1) model. The most general forms of the superpotential and Kähler potential invariant under Ω(1) are discussed, and the corresponding fermion mass matrices are presented. Based on the eclectic flavor group Ω(1), two concrete lepton models which can successfully describe the experimental data of lepton masses and mixing parameters are constructed. For the two models without gCP, all six mixing parameters vary in small regions. A nearly maximal atmospheric mixing angle θ23 and Dirac CP phase δCP are obtained in the first model. After considering the compatible gCP symmetry and the assumption of Rτ=0 in the first model, the μ−τ reflection symmetry is preserved in the charged lepton diagonal basis. As a consequence, the atmospheric mixing angle and Dirac CP phase are predicted to be maximal, and two Majorana CP phases are predicted to be π
hep-ph
arXiv
Ding, Gui-Jun
65280d32-40be-4950-a54f-f130e4f8699a
King, Stephen F.
f8c616b7-0336-4046-a943-700af83a1538
Li, Cai-Chang
477970e9-f18d-42db-91f5-ab9099be6705
Liu, Xiang-Gan
4782d0df-579e-46cc-b479-707f7fb6cdd7
Lu, Jun-Nan
e728833f-a3da-46b0-a7d1-473f4ad2873d
Ding, Gui-Jun
65280d32-40be-4950-a54f-f130e4f8699a
King, Stephen F.
f8c616b7-0336-4046-a943-700af83a1538
Li, Cai-Chang
477970e9-f18d-42db-91f5-ab9099be6705
Liu, Xiang-Gan
4782d0df-579e-46cc-b479-707f7fb6cdd7
Lu, Jun-Nan
e728833f-a3da-46b0-a7d1-473f4ad2873d

[Unknown type: UNSPECIFIED]

Record type: UNSPECIFIED

Abstract

The Kähler potentials of modular symmetry models receive unsuppressed contributions which may be controlled by a flavor symmetry, where the combination of the two symmetry types is referred to as eclectic flavor symmetry. After briefly reviewing the consistency conditions of eclectic flavor symmetry models, including with generalised (g)CP, we perform a comprehensive bottom-up study of eclectic flavor symmetry models based on Ω(1)≅Δ(27)⋊T′, consisting of the flavor symmetry Δ(27) in a semi-direct product with the modular symmetry T′. The modular transformations of different Δ(27) multiplets are given by solving the consistency condition. The eight nontrivial singlets of Δ(27) are related by T′ modular symmetry, and they have to be present or absent simultaneously in any Ω(1) model. The most general forms of the superpotential and Kähler potential invariant under Ω(1) are discussed, and the corresponding fermion mass matrices are presented. Based on the eclectic flavor group Ω(1), two concrete lepton models which can successfully describe the experimental data of lepton masses and mixing parameters are constructed. For the two models without gCP, all six mixing parameters vary in small regions. A nearly maximal atmospheric mixing angle θ23 and Dirac CP phase δCP are obtained in the first model. After considering the compatible gCP symmetry and the assumption of Rτ=0 in the first model, the μ−τ reflection symmetry is preserved in the charged lepton diagonal basis. As a consequence, the atmospheric mixing angle and Dirac CP phase are predicted to be maximal, and two Majorana CP phases are predicted to be π

Text
2303.02071v1 - Author's Original
Available under License Other.
Download (4MB)

More information

Submitted date: 3 March 2023
Additional Information: 47 pages, 2 figures
Keywords: hep-ph

Identifiers

Local EPrints ID: 478150
URI: http://eprints.soton.ac.uk/id/eprint/478150
PURE UUID: a8523da1-6939-45d3-ac39-3cc7fad343cb

Catalogue record

Date deposited: 22 Jun 2023 16:45
Last modified: 17 Mar 2024 01:58

Export record

Altmetrics

Contributors

Author: Gui-Jun Ding
Author: Stephen F. King
Author: Cai-Chang Li
Author: Xiang-Gan Liu
Author: Jun-Nan Lu

Download statistics

Downloads from ePrints over the past year. Other digital versions may also be available to download e.g. from the publisher's website.

View more statistics

Atom RSS 1.0 RSS 2.0

Contact ePrints Soton: eprints@soton.ac.uk

ePrints Soton supports OAI 2.0 with a base URL of http://eprints.soton.ac.uk/cgi/oai2

This repository has been built using EPrints software, developed at the University of Southampton, but available to everyone to use.

We use cookies to ensure that we give you the best experience on our website. If you continue without changing your settings, we will assume that you are happy to receive cookies on the University of Southampton website.

×