Radiative corrections and explicit perturbations to the tetra-maximal neutrino mixing with large <mml:math xmlns:mml="http://www.w3.org/1998/Math/MathML" altimg="si1.gif" overflow="scroll"><mml:msub><mml:mi>θ</mml:mi><mml:mn>13</mml:mn></mml:msub></mml:math>

Zhang, He; Zhou, Shun

doi:10.1016/j.physletb.2011.09.033

Cited by 34 publications

(3 citation statements)

References 29 publications

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“…In this connection a few constant neutrino mixing patterns which possess |U µi | = |U τ i |, such as the bimaximal [20] and tri-bimaximal [21] ones with θ 13 = 0 • and θ 23 = 45 • , have been assumed at a superhigh energy scale; and their RGE running behaviors have been investigated mainly to see whether a finite θ 13 can be radiatively generated at low energies [18]. The closest example of this kind should be the work [22] on radiative corrections to the tetra-maximal neutrino mixing pattern [23], in which θ 13 ≃ 8.4 • , θ 23 = 45 • and δ = 90 • or 270 • have been predicted. Our present work is different from the previous ones in several aspects: (a) it is not subject to any explicit neutrino mixing pattern; (b) it focuses on the PMNS µ-τ asymmetries ∆ i and its RGE evolution; (c) it provides a reasonable resolution to the octant of θ 23 by attributing it to the PMNS µ-τ symmetry breaking effect; (d) it may also resolve the quadrant of δ in a similar way.…”

Section: Summary and Further Discussionmentioning

confidence: 99%

Resolving the octant ofθ23via radiativeμ−τsymmetry breaking

Luo

Zhang

2014

Phys. Rev. D

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We point out that the observed neutrino mixing pattern at low energies is very likely to originate from the 3×3 Pontecorvo-Maki-Nakagawa-Sakata (PMNS) lepton flavor mixing matrix U which possesses the exact µ-τ permutation symmetry |U µi | = |U τ i | (for i = 1, 2, 3) at a superhigh energy scale Λ µτ ∼ 10 14 GeV. The deviation of θ 23 from 45• and that of δ from 270• in the standard parametrization of U are therefore a natural consequence of small PMNS µ-τ symmetry breaking via the renormalization-group equations (RGEs) running from Λ µτ down to the electroweak scale Λ EW ∼ 10 2 GeV. In fitting current experimental data we find that the RGE-corrected value of θ 23 is uniquely correlated with the neutrino mass ordering: θ 23 ≃ 42.4• reported by Capozzi et al (or θ 23 ≃ 48.9• reported by Forero et al) at Λ EW can arise from θ 23 = 45• at Λ µτ in the minimal supersymmetric standard model if the neutrino mass ordering is inverted (or normal). Accordingly, the preliminary best-fit results of δ at Λ EW can also evolve from δ = 270• at Λ µτ no matter whether the massive neutrinos are Dirac or Majorana particles.

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Section: Summary and Further Discussionmentioning

confidence: 99%

Resolving the octant ofθ23via radiativeμ−τsymmetry breaking

Luo

Zhang

2014

Phys. Rev. D

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“…2)] ≃ 8.4 • besides equation (1.18). We find that U 4M can fit current neutrino oscillation data after slight µ-τ reflection symmetry breaking effects are taken into account [62,63]. A number of interesting constant neutrino mixing patterns respecting the µ-τ permutation symmetry have also been proposed and discussed in the literature [10].…”

Section: A Minimal Symmetry Of the Neutrino Flavorsmentioning

confidence: 67%

The µ–τ reflection symmetry of Majorana neutrinos ^*

邢志忠

2023

Rep. Prog. Phys.

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The observed pattern of lepton ﬂavor mixing and CP violation strongly indicates the possible existence of a simple ﬂavor symmetry in the neutrino sector — the effective Majorana neutrino mass term keeps invariant when the three left-handed neutrino ﬁelds transform as νeL → (νeL)c, νµL → (ντL)c and ντL → (νµL)c. A direct application of such a µ-τ reﬂection symmetry to the canonical seesaw mechanism can help a lot to constrain the ﬂavor textures of active and sterile Majorana neutrinos. The present article is intended to summarize the latest progress made in exploring the properties of this minimal ﬂavor symmetry, its translational and rotational extensions, its soft breaking effects via radiative corrections from a superhigh energy scale to the electroweak scale, and its various phenomenological implications.

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“…[14], in presence of latest oscillation data [2,9,10] 2 . The breaking effect of such symmetry has been examined in [15]. The tetra-maximal mixing matrix can be decomposed into four maximal rotations…”

Section: Introductionmentioning

confidence: 99%

Breaking of the tetra-maximal neutrino mixing pattern

Nath

2020

Nuclear Physics B

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We make an attempt to study the present status of the tetra-maximal neutrino mixing (TMM) pattern. It predicts all the three leptonic mixing angles θ13 ≈ 8.4 • , θ12 ≈ 30.4 • , and θ23 = 45 • together with the three CP-violating phases −δ = ρ = σ = 90 • . However, the latest global analysis of neutrino oscillation data prefer relatively higher best-fit value of θ12 as well as non-maximal values of both θ23, δ. In order to explain the realistic data, we study the breaking of TMM pattern. We first examine the breaking of TMM due to renormalization group (RG) running effects and then study the impact of explicit breaking terms. We also examine the effect of RG-induced symmetry breaking on the effective Majorana neutrino mass in neutrinoless double beta decay experiments.

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Radiative corrections and explicit perturbations to the tetra-maximal neutrino mixing with large θ13

Cited by 34 publications

References 29 publications

Resolving the octant ofθ23via radiativeμ−τsymmetry breaking

Resolving the octant ofθ23via radiativeμ−τsymmetry breaking

The µ–τ reflection symmetry of Majorana neutrinos ^*

Breaking of the tetra-maximal neutrino mixing pattern

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Radiative corrections and explicit perturbations to the tetra-maximal neutrino mixing with large θ13

Cited by 34 publications

References 29 publications

Resolving the octant ofθ23via radiativeμ−τsymmetry breaking

Resolving the octant ofθ23via radiativeμ−τsymmetry breaking

The µ–τ reflection symmetry of Majorana neutrinos *

Breaking of the tetra-maximal neutrino mixing pattern

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Product

Resources

About

The µ–τ reflection symmetry of Majorana neutrinos ^*