Symmetry Breaking as Quantum Gate: Entropy and Weak Mixing Angle

Abstract

We establish a correspondence between two independent entropic probes -- the variation of Rényi mutual information (RMI) across the electroweak symmetry breaking (EWSB) transition and the stabilizer Rényi entropy (SRE) -- in tree-level 2 2 elastic scatterings. After angular averaging, the RMI (helicity basis) and the SRE (fixed beam basis) exhibit identical dependence on 2θW within each neutral-current channel. We trace this correspondence to a common physical origin that it's the Yukawa mass insertion acts as a -iY quantum gate in chirality space. Minimizing entropies across all processes yields 2θW values matching purely axial vector-like couplings in Z boson exchanged channel.