Constraints on a little Higgs model with fully radiative electroweak symmetry breaking

In a recent paper, we introduced a new Little Higgs model, which contains the gauge structure SU(2)3×U(1) embedded in an approximate global SO(5)×SO(5) symmetry. After breaking to the standard model, SU(2)L×U(1)Y, this produces two heavy Z′ bosons and two heavy W′± bosons along with a single standard model-like Higgs scalar. The unique feature of the model was that it was possible to obtain electroweak symmetry breaking and a light Higgs mass entirely from perturbative loop contributions to the Higgs effective potential. In this paper, we consider the electroweak constraints on this model, including tree and loop contributions to the universal oblique and nonoblique parameters, tree-level corrections to the ZWW vertex, and tree- and loop-level corrections to Zbb . The most significant corrections are positive tree-level corrections to S and negative fermion-loop corrections to T, which require that the scale for the global symmetry breaking be ≳2 TeV, depending on the top-quark mixing parameter and the extra gauge couplings. In addition, the loop corrections to Zbb contain a divergence that must be absorbed into the coefficient of a new operator in the theory. The finite part of this Zbb correction, however, is negligible.