Sphaleron rate in the symmetric electroweak phase

26 September 2000

journal article
research article
Published by American Physical Society (APS) in Physical Review D

Vol. 62 (8) , 085011
https://doi.org/10.1103/physrevd.62.085011

Abstract

Recently Bödeker presented an effective infrared theory for the dynamics of Yang-Mills theory, suitable for studying the rate of baryon number violation in the early universe. We extend his theory to include the Higgs boson fields, and study how much the Higgs boson affects the baryon number violation rate in the symmetric phase, at the phase coexistence temperature of a first order electroweak phase transition. The rate is about 20% smaller than in pure Yang-Mills theory. We also analyze the sphaleron rate in the analytic crossover regime. Our treatment relies on the ergodicity conjecture for 3D scalar

φ^{4}

theory.

Keywords

All Related Versions

This publication has 21 references indexed in Scilit:

Effective theory for $ω ≪ k ≪ gT$ color dynamics in hot non-Abelian plasmas
Physical Review D, 2000
Chern-Simons number diffusion and hard thermal loops on the lattice
Physical Review D, 2000
Longitudinal subtleties in diffusive Langevin equations for non-Abelian plasmas
Physical Review D, 1999
Effective dynamics of hot, soft non-Abelian gauge fields: Color conductivity and log $(1 / α)$ effects
Physical Review D, 1999
Chern-Simons number diffusion with hard thermal loops
Physical Review D, 1998
Effective dynamics of soft non-Abelian gauge fields at finite temperature
Physics Letters B, 1998
The hot baryon violation rate is $O (α_{w}^{5} T^{4})$
Physical Review D, 1997
Long range physics in a hot non-Abelian plasma
Physics Letters B, 1997
Behaviour of gluons at high temperature
Annals of Physics, 1985
Symmetry Breaking through Bell-Jackiw Anomalies
Physical Review Letters, 1976