Vacuum Decay Rate in D-dimensional Electroweak theories

Abstract

We present a systematic framework for calculating the vacuum decay rate in D-dimensional electroweak theories, providing a unified treatment of quantum fluctuations for scalar, fermion, and gauge boson fields via a combined WKB expansion and dimensional regularization. This method ensures rapid convergence even at large angular momenta. Application to a D=4 standard model effective field theory gives 10(γ × Gyr × Gpc3)=183. In the finite-temperature, dimensionally reduced standard model effective field theory with D=3, the values are 10(T × Gyr × Gpc3)=42.4 at tree level and 116.1 at two-loop order. The approach offers a general and efficient tool for analyzing vacuum stability and decay across dimensions.