Radiative contribution to the effective potential in composite Higgs models from lattice gauge theory

TL;DR

This paper introduces lattice gauge theory methods to compute the electroweak gauge boson contribution to the Higgs potential in composite Higgs models, paralleling techniques used in QCD for pion mass splitting.

Contribution

It develops a novel lattice-based approach to evaluate the Higgs potential contributions, including modeling and numerical methods, in the context of composite Higgs theories.

Findings

Numerical results for SU(4) gauge theory with two flavors.

Methodology for modeling current-current correlation functions.

Implementation of the minimal-hadron approximation.

Abstract

We develop methods to calculate the electroweak gauge boson contribution to the effective Higgs potential in the context of composite Higgs models, using lattice gauge theory. The calculation is analogous to that of the electromagnetic mass splitting of the pion multiplet in QCD. We discuss technical details of carrying out this calculation, including modeling of the momentum and fermion-mass dependence of the underlying current-current correlation function; direct integration of the correlation function over momentum; and fits based on the minimal-hadron approximation. We show results of a numerical study using valence overlap fermions, carried out in an SU(4) gauge theory with two flavors of Dirac fermions in the two-index antisymmetric representation.