One-loop corrections to the Higgs electroweak chiral Lagrangian

Abstract

In this talk we study beyond Standard Model scenarios where the Higgs is non-linearly realized. The one-loop ultraviolet divergences of the low-energy effective theory at next-to-leading order, O(p4), are computed by means of the background-field method and the heat-kernel expansion. The power counting in non-linear theories shows that these divergences are determined by the leading-order effective Lagrangian L2. We focus our attention on the most important O(p4) divergences, which are provided by the loops of Higgs and electroweak Goldstones, as these particle are the only ones that couple through derivatives in L2. The one-loop divergences are renormalized by O(p4) effective operators, and set their running. This implies the presence of chiral logarithms in the amplitudes along with the O(p4) low-energy couplings, which are of a similar importance and should not be neglected in next-to-leading order effective theory calculations, e.g. in composite scenarios.