Generalized Three-Family Supersymmetric Pati-Salam Models from Type IIA Intersecting D6-Branes

Abstract

Generalizing three-family chiral fermion conditions to Iac=-(3+h) and Iac'=h, with positive integer h, we extend the landscape of three-family N=1 supersymmetric Pati-Salam models in a broader region. Differing from the former investigation with Iac=-3 and Iac'=0, we do not restrict that the a stack of D6-branes must be parallel to the orientifold image of the c-stack along one of the three two-tori. In this investigation, without the simple parallel construction, we find four new classes of supersymmetric Pati-Salam models that are allowed by the extended three generation condition with Iac=3, Iac'=-6 and Iac=-1, Iac'=-2 through the intersections of a- and c/c'-branes. Moreover, with the SU(2)L' gauge coupling realized from SU(2)L1× SU(2)L2 symmetry breaking, the canonical normalization requirement of the gauge kinetic term provides an alternative approach that can be imposed before the renormalization group equation evolution for SU(2)L' gauge coupling. This turns out to be an effective mechanism to realize the string-scale gauge coupling relation, especially for the new supersymmetric Pati-Salam models with large gb/ga ratio. We show that this symmetry-breaking modified renormalization group evolution can highly suppress gb/ga, and finally realizes string-scale gauge coupling relations for the extended supersymmetric Pati-Salam models as well.

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