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Diagonal reflection symmetries, four-zero texture, and trimaximal mixing with predicted θ₁₃ in an A₄ symmeric model

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arxiv 2104.12063 v3 pith:V2DVOKTN submitted 2021-04-25 hep-ph

Diagonal reflection symmetries, four-zero texture, and trimaximal mixing with predicted θ₁₃ in an A₄ symmeric model

classification hep-ph
keywords massthetadiagonalfour-zeromagicmatrixmixingreflection
verification ladder T0 review T1 audit T2 compute T3 formal T4 reserved
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In this paper, we impose a magic symmetry on the neutrino mass matrix $m_{\nu}$ with universal four-zero texture and diagonal reflection symmetries. Due to the magic symmetry, the MNS matrix has trimaximal mixing inevitably. Since the lepton sector has only six free parameters, physical observables of leptons are all determined from the charged leptons masses $m_{ei}$, the neutrino mass differences $\Delta m_{i1}^{2}$, and the mixing angle $\theta_{23}$. This scheme predicts $\sin \theta_{13} = 0.149$, that is almost equal to the latest best fit, as a function of the lepton masses $m_{e, \mu}$ and the mass differences $\Delta m_{i1}^{2}$. Moreover, even if the mass matrix has perturbations that break the magic symmetry, the prediction of $\sin \theta_{13}$ is retained with good accuracy for the four-zero texture with diagonal reflection symmetries.

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Cited by 2 Pith papers

Reviewed papers in the Pith corpus that reference this work. Sorted by Pith novelty score.

  1. Universal two-zero texture in SO(10): implications of JUNO and realization from non-invertible symmetries

    hep-ph 2026-06 unverdicted novelty 6.0

    The universal two-zero texture in SO(10) fits flavor data with seven parameters, prefers normal neutrino ordering, predicts Dirac-phase regions and meV-scale m_beta beta, and arises from Z_3 gauging of Z_N (minimal N=...

  2. Universal two-zero texture in SO(10): implications of JUNO and realization from non-invertible symmetries

    hep-ph 2026-06 conditional novelty 5.0

    Universal two-zero textures in SO(10) remain compatible with JUNO-era flavor data, prefer normal ordering, predict meV-scale mββ, and arise from Z3-gauged Z7 non-invertible selection rules.