具有d4对称的标准模型的$U{(1)}_{B-L}$扩展中的费米子质量和混合

Journal of Physics G Pub Date : 2020-04-08 DOI:10.1088/1361-6471/ab7ec0

V. V. Vien

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引用次数: 17

摘要

我们提出了一个基于d4对称的可重整的B−L标准模型扩展，该扩展可容纳费米子质量和具有CP违逆的混合参数。正常和反向中微子的质量排序以及活动中微子质量的小是通过I型跷跷板机制产生的。得到的物理参数与Esteban et al (2019 J. High Energy physics)中中微子振荡的全局拟合很好地吻合。JHEP01(2019)106)，而夸克质量与最近的实验数据很好地吻合(Tanabashi et al (Particle data Group) 2018 Phys。Rev. D 98 030001和2019更新)。该模型还预测了正能级和倒能级的有效中微子质量参数，这些参数都符合最近关于无中微子双β衰变的实验极限。

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Fermion mass and mixing in the $U{(1)}_{B-L}$ extension of the standard model with D 4 symmetry

We propose a renormalizable B − L standard model extension based on D 4 symmetry which accommodates fermion mass and mixing parameters with CP violation. Both normal and inverted neutrino mass ordering as well as the smallness of the active neutrino masses are generated through a type I seesaw mechanism. The obtained physical parameters are well consistent with the global fit of neutrino oscillation in Esteban et al (2019 J. High Energy Phys. JHEP01(2019)106) while the quark masses are in good agreement with the recent experimental data (Tanabashi et al (Particle Data Group) 2018 Phys. Rev. D 98 030001 and 2019 update). The model also predicts an effective neutrino mass parameter of for normal hierarchy and for inverted hierarchy which are all consistent with the recent experimental limits on neutrinoless double beta decay.

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Journal of Physics G

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