Abstract

In the previous paper, we have shown that $R_1\equiv\frac{\Gamma_{n \rightarrow \pi^0 + \nu^c}}{\Gamma_{p \rightarrow \pi^0 + e^c}}$ and $R_2\equiv\frac{\Gamma_{p \rightarrow K^0 + \mu^c}}{\Gamma_{p \rightarrow \pi^0 + e^c}}$ can identify the grand unification group $SU(5)$, $SO(10)$, or $E_6$ in typical anomalous $U(1)_A$ supersymmetric (SUSY) grand unified theory (GUT) in which nucleon decay via dimension-6 operators becomes dominant. When $R_1 > 0.4$ the grand unification group is not $SU(5)$, while when $R_1 > 1$ the grand unification group is $E_6$. Moreover, when $R_2 > 0.3$, $E_6$ is implied. Main ambiguities come from the diagonalizing matrices for quark and lepton mass matrices in this calculation once we fix the vacuum expectation values of GUT Higgs bosons. In this paper, we calculate $R_1$ and $R_2$ in $E_6\times SU(2)_F$ SUSY GUT with anomalous $U(1)_A$ gauge symmetry, in which realistic quark and lepton masses and mixings can be obtained though the flavor symmetry $SU(2)_F$ constrains Yukawa couplings at the GUT scale. The ambiguities of Yukawa couplings are expected to be reduced. We show that the predicted region for $R_1$ and $R_2$ is more restricted than in the $E_6$ model without $SU(2)_F$ as expected. Moreover, we re-examine the previous claim for the identification of grand unification group with $100$ times more model points ($10^6$ model points), including $E_6 \times SU(2)_F$ model.

Highlights

  • Grand unified theory (GUT) [2] is one of the most favorable candidates for the model beyond the standard model (SM)

  • One more important feature is that the realistic quark and lepton masses and mixings can be realized in anomalous U(1)A SUSY GUT models, with SO(10) and E6 grand unification group [10, 12]

  • In this paper we have calculated the partial lifetime for various decay modes of the nucleons via dimension-6 operators in anomalous U(1)A E6 × SU(2)F SUSY GUT model with the spontaneously broken CP symmetry

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Summary

Introduction

Grand unified theory (GUT) [2] is one of the most favorable candidates for the model beyond the standard model (SM). One more important feature is that the realistic quark and lepton masses and mixings can be realized in anomalous U(1)A SUSY GUT models, with SO(10) and E6 grand unification group [10, 12]. If the CP symmetry is imposed, which is spontaneously broken by the Higgs which breaks SU(2)F , the SUSY CP problem can be solved and the number of O(1) coefficients for quark and charged lepton masses and quark mixings can be smaller than the number of these mass and mixing parameters [16, 17, 18] It means that the diagonalizing matrices can be fixed from the quark and lepton masses and mixings at least at the GUT scale in principle. We estimate Lν from the observed UMNS and Le

Conditions for the diagonalizing matrices
Numerical calculation
Various decay modes for the proton
Identification of GUT models
Discussion and Summary

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