Holographic Composite Higgs Model Building: Soft Breaking, Maximal Symmetry, and the Higgs Mass

Abstract

We study the emergence and phenomenological consequences of recently proposed new structures, namely soft breaking of the Higgs shift symmetry and `maximal symmetry' of the composite sector, in holographic realizations of composite Higgs models. For the former, we show that soft breaking can also successfully be implemented in a full 5D warped model, where symmetry-restoring universal boundary conditions for the fermion fields allow to break the problematic connection between a realistically light Higgs and anomalously light top partners. For the latter, we demonstrate that the minimal incarnation of maximal symmetry in the holographic dual leads to a sharp prediction of mh≈ 197 GeV for f=800 GeV. We find that a viable implementation is possible with sizable negative gauge brane kinetic terms, allowing for mh=125 GeV. Overall, both approaches offer promising directions to improve the naturalness also of holographic realizations of composite Higgs models.

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