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Main Authors: Pegu, Prokash, Duarah, Chandan
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.19419
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author Pegu, Prokash
Duarah, Chandan
author_facet Pegu, Prokash
Duarah, Chandan
contents The search for neutrinoless double beta decay ($0νββ$) is currently one of the key objectives in neutrino physics research. The decay rate of $0νββ$ decay depends on the effective Majorana neutrino mass $|\langle m \rangle_{ee}|$. In this work we study the numerical prediction of $|\langle m \rangle_{ee}|$ in the scenario of deviation from the $μ$-$τ$ reflection symmetry due to radiative corrections, as an extension of our earlier work \cite{pegu}. In \cite{pegu}, we consider an exact $μ$-$τ$ reflection symmetry in the light effective Majorana neutrino mass matrix and in the corresponding lepton mixing matrix as well at the seesaw scale. We choose numerical values of all the mixing parameters and neutrino mass eigenvalues at the seesaw scale as inputs and estimate the values of mass eigenvalues and mixing parameters at the electroweak scale due to radiative corrections. We find these low energy predictions consistent with global $3σ$ oscillation data. In the present work, we compute the effective Majorana neutrino mass $|\langle m \rangle_{ee}|$ using these low energy values at the electroweak scale. We find that the low energy predictions of $|\langle m \rangle_{ee}|$ are consistent with the latest upper bound $|\langle m \rangle_{ee}|<(0.028-0.122)\ eV$ provided by KamLAND-Zen Collaboration.
format Preprint
id arxiv_https___arxiv_org_abs_2601_19419
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Predictions of effective Majorana neutrino mass under radiative corrections to $μ-τ$ reflection symmetry
Pegu, Prokash
Duarah, Chandan
High Energy Physics - Phenomenology
The search for neutrinoless double beta decay ($0νββ$) is currently one of the key objectives in neutrino physics research. The decay rate of $0νββ$ decay depends on the effective Majorana neutrino mass $|\langle m \rangle_{ee}|$. In this work we study the numerical prediction of $|\langle m \rangle_{ee}|$ in the scenario of deviation from the $μ$-$τ$ reflection symmetry due to radiative corrections, as an extension of our earlier work \cite{pegu}. In \cite{pegu}, we consider an exact $μ$-$τ$ reflection symmetry in the light effective Majorana neutrino mass matrix and in the corresponding lepton mixing matrix as well at the seesaw scale. We choose numerical values of all the mixing parameters and neutrino mass eigenvalues at the seesaw scale as inputs and estimate the values of mass eigenvalues and mixing parameters at the electroweak scale due to radiative corrections. We find these low energy predictions consistent with global $3σ$ oscillation data. In the present work, we compute the effective Majorana neutrino mass $|\langle m \rangle_{ee}|$ using these low energy values at the electroweak scale. We find that the low energy predictions of $|\langle m \rangle_{ee}|$ are consistent with the latest upper bound $|\langle m \rangle_{ee}|<(0.028-0.122)\ eV$ provided by KamLAND-Zen Collaboration.
title Predictions of effective Majorana neutrino mass under radiative corrections to $μ-τ$ reflection symmetry
topic High Energy Physics - Phenomenology
url https://arxiv.org/abs/2601.19419