English

A Predictive Non-Holomorphic Modular $A_4$ Linear Seesaw Framework Testable at DUNE

High Energy Physics - Phenomenology 2026-02-27 v1

Abstract

We study a realization of neutrino masses within the linear seesaw mechanism based on non-holomorphic modular A4A_4 symmetry, extending modular-invariant flavor models beyond the conventional holomorphic framework. The model is constructed in a non-supersymmetric setting and involves six heavy SU(2)LSU(2)_L singlet fermions, NRN_R and SLS_L, together with a single flavon field, thereby significantly reducing the field content. The modular transformation properties of the Yukawa couplings under A4A_4 symmetry lead to a highly constrained neutrino mass matrix with a distinctive flavor structure. After presenting the general theoretical framework, we perform a systematic numerical analysis of neutrino phenomenology by restricting the modulus parameter τ\tau to the fundamental domain and scanning the allowed parameter space. We identify regions consistent with current neutrino oscillation data at the 3σ3\sigma level and obtain predictions for currently unknown observables, including the absolute neutrino mass scale and leptonic CP-violating phases. We further examine the implications for neutrinoless double beta decay, highlighting testable signatures in upcoming precision oscillation and rare-process experiments. These results demonstrate the phenomenological viability and predictive power of non-holomorphic modular symmetry in linear seesaw neutrino mass models.

Keywords

Cite

@article{arxiv.2602.23018,
  title  = {A Predictive Non-Holomorphic Modular $A_4$ Linear Seesaw Framework Testable at DUNE},
  author = {Rudra Majhi and Mitesh Kumar Behera and Rukmani Mohanta},
  journal= {arXiv preprint arXiv:2602.23018},
  year   = {2026}
}

Comments

26 pages, 5 figures, 5 tables

R2 v1 2026-07-01T10:53:55.850Z