Supersymmetric SU(5) × U(1) and the Weak Gravity Conjecture

Abstract

The gauge symmetry SU(5) × U(1) is the unique maximal subgroup of SO(10) which retains manifest unification at MGUT of the Standard Model gauge couplings, especially if low scale supersymmetry is present. The spontaneous breaking of U(1) at some intermediate scale leaves unbroken a Z2 symmetry which is precisely `matter' parity. This yields a stable supersymmetric dark matter particle as well as topologically stable cosmic strings. Motivated by the weak gravity conjecture we impose unification of SU(5) and U(1) at an ultraviolet cutoff α 1/2 MP ≈ 5 × 1017 GeV, where α denotes the SU(5) gauge coupling at and MP ≈ 2.4 × 1018 GeV is the reduced Planck Scale. The impact of dimension five operators suppressed by on gauge coupling unification, proton lifetime estimates and b-τ Yukawa unification is discussed. In particular, the gauge boson mediated proton decay into e+π0 can lie within the 2-σ sensitivity of HyperKamiokande. We also discuss how the intermediate scale strings may survive inflation while the SU(5) monopoles are inflated away. The unbroken Z2 symmetry provides an intriguing link between dark matter, black holes carrying `quantum hair' and cosmic strings.