SU(4) Instantons on Calabi-Yau Threefolds with Z2 x Z2 Fundamental Group
Abstract
Structure group SU(4) gauge vacua of both weakly and strongly coupled heterotic superstring theory compactified on torus-fibered Calabi-Yau threefolds Z with Z2 x Z2 fundamental group are presented. This is accomplished by constructing invariant, stable, holomorphic rank four vector bundles on the simply connected cover of Z. Such bundles can descend either to Hermite-Yang-Mills instantons on Z or to twisted gauge fields satisfying the Hermite-Yang-Mills equation corrected by a non-trivial flat B-field. It is shown that large families of such instantons satisfy the constraints imposed by particle physics phenomenology. The discrete parameter spaces of those families are presented, as well as a lower bound on the dimension of the continuous moduli of any such vacuum. In conjunction with Z2 x Z2 Wilson lines, these SU(4) gauge vacua can lead to standard-like models at low energy with an additional U(1)B-L symmetry. This U(1)B-L symmetry is very helpful in naturally suppressing nucleon decay.
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