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Main Authors: Ge, Shao-Feng, Kong, Chui-Fan, Pinheiro, João Paulo
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2511.15442
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author Ge, Shao-Feng
Kong, Chui-Fan
Pinheiro, João Paulo
author_facet Ge, Shao-Feng
Kong, Chui-Fan
Pinheiro, João Paulo
contents The JUNO first data and the recent neutrino global fit results are implemented in the sum rule from the residual $\mathbb Z^s_2$ and $\overline{\mathbb Z}^s_2$ symmetries to make prediction of the leptonic Dirac CP phase $δ_D$. Without involving model parameters, the probability distribution of $δ_D$ can be readily obtained from the experimental measurements of the three mixing angles. We then confront the theoretical predictions with the global fit results for the CP phase as well as the T2K and NOvA joint analysis for their CP measurement to give the data preference of the two residual symmetries with Bayes factor for both normal and inverted orderings. We further extend our analysis to a two-dimensional probability distribution to fully explore the correlation between the CP phase $δ_D$ and the atmospheric angle $θ_a \equiv θ_{23}$.
format Preprint
id arxiv_https___arxiv_org_abs_2511_15442
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle CP Prediction from Residual $\mathbb Z_2^s$ and $\overline{\mathbb Z}_2^s$ Symmetries with JUNO First Data
Ge, Shao-Feng
Kong, Chui-Fan
Pinheiro, João Paulo
High Energy Physics - Phenomenology
High Energy Physics - Experiment
The JUNO first data and the recent neutrino global fit results are implemented in the sum rule from the residual $\mathbb Z^s_2$ and $\overline{\mathbb Z}^s_2$ symmetries to make prediction of the leptonic Dirac CP phase $δ_D$. Without involving model parameters, the probability distribution of $δ_D$ can be readily obtained from the experimental measurements of the three mixing angles. We then confront the theoretical predictions with the global fit results for the CP phase as well as the T2K and NOvA joint analysis for their CP measurement to give the data preference of the two residual symmetries with Bayes factor for both normal and inverted orderings. We further extend our analysis to a two-dimensional probability distribution to fully explore the correlation between the CP phase $δ_D$ and the atmospheric angle $θ_a \equiv θ_{23}$.
title CP Prediction from Residual $\mathbb Z_2^s$ and $\overline{\mathbb Z}_2^s$ Symmetries with JUNO First Data
topic High Energy Physics - Phenomenology
High Energy Physics - Experiment
url https://arxiv.org/abs/2511.15442