Add to ORKGRecent neutrino parameter measurements place increasingly stringent constraints on acceptable supersymmetric theories of flavor. A very fruitful approach is the application of non-Abelian discrete gauged flavor symmetries G_f. We discuss a highly successful model using G_f = T' x Z_3, where T' is a non-Abelian group based on the symmetries of a tetrahedron. This model reproduces the basic features of the U(2) model, and also predicts neutrino masses and mixing angles consistent with either the SMA or LMA solutions
AbstractIt is shown that using non-Abelian horizontal gauge symmetry and anomalous U(1)A symmetry in...
In the recent years, the industry of model building has been the subject of the intense activity, es...
We consider the A4, S4, and A5 discrete lepton flavor symmetries in the case of 3-neutrino mixing, b...
In an attempt to understand the observed patterns of lepton and quark masses, models invoking a flav...
There is a unique set of U(1) flavor symmetry quantum numbers that agree with the phenomenological r...
We consider a class of flavor models proposed by Aranda, Carone and Lebed, relaxing the assumption o...
This thesis deals with the possibility of describing the flavor sector of the Standard Model of Part...
We review the application of non abelian discrete groups to the theory of neutrino masses and mixing...
The experimental determination of flavor parameters (mass values, mixing angles and phases) suffer,...
We investigate a gauge theory realization of non-Abelian discrete flavor sym-metries and apply the g...
Nonabelian discrete groups are an attractive tool to describe fermion masses and mixings. They have ...
Present data on neutrino masses and mixing favor the highly symmetric tribimaximal neutrino mixing m...
The authors study a number of models, based on a non-Abelian discrete group, that successfully repro...
We construct a supersymmetric theory of flavor based on the discrete gauge group (D_6)^2, where D_6 ...
Recently a TeV-scale Supersymmetric Standard Model (TSSM) was proposed in which the gauge coupling u...
AbstractIt is shown that using non-Abelian horizontal gauge symmetry and anomalous U(1)A symmetry in...
In the recent years, the industry of model building has been the subject of the intense activity, es...
We consider the A4, S4, and A5 discrete lepton flavor symmetries in the case of 3-neutrino mixing, b...
In an attempt to understand the observed patterns of lepton and quark masses, models invoking a flav...
There is a unique set of U(1) flavor symmetry quantum numbers that agree with the phenomenological r...
We consider a class of flavor models proposed by Aranda, Carone and Lebed, relaxing the assumption o...
This thesis deals with the possibility of describing the flavor sector of the Standard Model of Part...
We review the application of non abelian discrete groups to the theory of neutrino masses and mixing...
The experimental determination of flavor parameters (mass values, mixing angles and phases) suffer,...
We investigate a gauge theory realization of non-Abelian discrete flavor sym-metries and apply the g...
Nonabelian discrete groups are an attractive tool to describe fermion masses and mixings. They have ...
Present data on neutrino masses and mixing favor the highly symmetric tribimaximal neutrino mixing m...
The authors study a number of models, based on a non-Abelian discrete group, that successfully repro...
We construct a supersymmetric theory of flavor based on the discrete gauge group (D_6)^2, where D_6 ...
Recently a TeV-scale Supersymmetric Standard Model (TSSM) was proposed in which the gauge coupling u...
AbstractIt is shown that using non-Abelian horizontal gauge symmetry and anomalous U(1)A symmetry in...
In the recent years, the industry of model building has been the subject of the intense activity, es...
We consider the A4, S4, and A5 discrete lepton flavor symmetries in the case of 3-neutrino mixing, b...