The Intermediate Scale MSSM, the Higgs Mass and F-theory Unification

Abstract

Even if SUSY is not present at the Electro-Weak scale, string theory suggests its presence at some scale MSS below the string scale Ms to guarantee the absence of tachyons. We explore the possible value of MSS consistent with gauge coupling unification and known sources of SUSY breaking in string theory. Within F-theory SU(5) unification these two requirements fix MSS ~ 5 x 1010 GeV at an intermediate scale and a unification scale Mc ~ 3 x 1014 GeV. As a direct consequence one also predicts the vanishing of the quartic Higgs SM self-coupling at MSS ~1011 GeV. This is tantalizingly consistent with recent LHC hints of a Higgs mass in the region 124-126 GeV. With such a low unification scale Mc ~ 3 x 1014 GeV one may worry about too fast proton decay via dimension 6 operators. However in the F-theory GUT context SU(5) is broken to the SM via hypercharge flux. We show that this hypercharge flux deforms the SM fermion wave functions leading to a suppression, avoiding in this way the strong experimental proton decay constraints. In these constructions there is generically an axion with a scale of size fa ~ Mc/(4π)2 ~ 1012 GeV which could solve the strong CP problem and provide for the observed dark matter. The prize to pay for these attractive features is to assume that the hierarchy problem is solved due to anthropic selection in a string landscape.