Remarks on the unified model of elementary particles
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In this article, a particle mixture theory of neutrino is proposed assuming the existence of two kinds neutrinos, and a possible unified model of elementary particles is constructed by generalizing the Sakata-Nagoya model, which gives a natural explanation of smallness of leptonic decay rate of hyperons as well as subtle difference of G_ν's between µ-e and β-decay.Abstract:
A particle mixture theory of neutrino is proposed assuming the existence of two kinds of neutrinos. Based on the neutrino-mixture theory, a possible unified model of elementary particles is constructed by generalizing the Sakata-Nagoya model. Our scheme gives a natural explanation of smallness of leptonic decay rate of hyperons as well as the subtle difference of G_ν's between µ-e and β-decay.read more
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Standard versus Non-Standard CP Phases in Neutrino Oscillation in Matter with Non-Unitarity
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Predictions for the neutrino parameters in the minimal model extended by linear combination of U(1)$_{L_e-L_\mu}$, U(1)$_{L_\mu-L_\tau}$ and U(1)$_{B-L}$ gauge symmetries
TL;DR: In this article, the minimal extensions of the Standard Model by a linear combination of U(1)$L_e-L_\mu}, U(2)$_L$ singlet or doublet scalar are introduced.
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TL;DR: In this paper, it was shown that in SO (10) models with non-canonical (type II) see-saw mechanism and exact b − τ unification, the trace of the neutrino mass matrix is very small, in fact practically zero.
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Leading order one-loop CP and P violating effective action in the Standard Model
TL;DR: In this paper, the fermions of the Standard Model were integrated out to obtain the effective Lagrangian in the sector violating P and CP at zero temperature, and it was shown that the leading operators are of dimension eight.
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Yukawa textures, neutrino masses and Horava-Witten M theory
TL;DR: In this article, a new mechanism is introduced to obtain neutrino masses by assuming massless right-handed neutrinos exist in the particle spectrum, which allows a cubic holomorphic term to exist in a Kahler metric, l L H 2 ν R, scaled by the 11D Planck mass.
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