Nucleon decay via dimension-6 operators in E6 × SU(2)F × U(1)A SUSY GUT model

Abstract

In the previous paper, we have shown that R1n → π0 + cp → π0 + ec and R2p → K0 + μcp → π0 + ec can identify the grand unification group SU(5), SO(10), or E6 in typical anomalous U(1)A supersymmetric (SUSY) grand unified theory (GUT) in which nucleon decay via dimension-6 operators becomes dominant. When R1 > 0.4 the grand unification group is not SU(5), while when R1 > 1 the grand unification group is E6. Moreover, when R2 > 0.3, E6 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 R1 and R2 in E6× 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 R1 and R2 is more restricted than in the E6 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 (106 model points), including E6 × SU(2)F model.