R-parity from string compactification

Abstract

The strategy for assigning Z4R parity in the string compactification is presented. For the visible sector, an anti-SU(5) (flipped-SU(5)) grand unification (GUT) model with three families is used to reduce the number of representations compared to the number in the minimal supersymmetric standard models (MSSMs). The SO(32) heterotic string is used to allow a large nonabelian gauge group SU(N), N 9, for the hidden sector such that the number of extra U(1) factors is small. A discrete subgroup of the gauge U(1)'s is defined as the Z4R parity. Spontaneous symmetry breaking of anti-SU(5) GUT is achieved by the vacuum expectation values of two index antisymmetric tensor Higgs fields 10+1 and 10-1 that led to our word `anti-SU(5)'. In the illustrated example, the multiplicity 3 in one twisted sector allows the permutation symmetry S3 that leads us to select the third family members and one MSSM pair of the Higgs quintets.