Masses of Third Family Vector-like Quarks and Leptons in Yukawa-Unified E6

Abstract

In supersymmetric E6 the masses of the third family quarks and charged lepton, t-b-τ, as well as the masses of the vector-like quarks and leptons, D-D and L-L, may arise from the coupling 273 x 273 x 27H, where 273 and 27H denote the third family matter and Higgs multiplets respectively. We assume that the SO(10) singlet component in 27H acquires a TeV scale VEV which spontaneously breaks U(1) and provides masses to the vector-like particles in 273, while the MSSM doublets in 27H provide masses to t, b and τ. Imposing Yukawa coupling unification ht=hb=hτ=hD=hL at MGUT and employing the ATLAS and CMS constraints on the Z' boson mass, we estimate the lower bounds on the third family vector-like particles D-D and L-L masses to be around 5.85 TeV and 2.9 TeV respectively. These bounds apply in the supersymmetric limit.