Abstract
The aim of superstring phenomenology is to develop the tools and methodology needed to confront string theory with experimental data. The first mandatory task is to find string solutions which reproduce the observable data. The subsequent goal is to extract potential signatures beyond the observable data. Recently, by studying exact flat directions of non-Abelian singlet fields, we demonstrated the existence of free fermionic heterotic string models in which the SU(3) × SU(2) × U(1) Y-charged matter spectrum, just below the string scale, consists solely of the MSSM spectrum. In this paper we study the possibility that the exact flat directions leave a U(1) Z′ symmetry unbroken at the Planck scale. We demonstrate in a specific example that such unbroken U(1) Z′ is in general expected to be not of the GUT type but of intrinsic stringy origin. We study its phenomenological characteristics and the consequences in the case that U(1) Z′ remains unbroken down to low energies. We suggest that observation in forthcoming colliders of a Z′, with universal couplings for the two light generations but different couplings for the heavy generation may provide evidence for the Z2 × Z2 orbifold which underlies the free fermionic models.
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