Gauge Invariant Treatment of the Electroweak Phase Transition

W. Buchmuller; Z. Fodor; A. Hebecker

Gauge Invariant Treatment of the Electroweak Phase Transition

W. Buchmuller, Z. Fodor, A. Hebecker

Abstract

We evaluate the gauge invariant effective potential for the composite field $σ=2Φ^{\dagger}Φ$ in the SU(2)-Higgs model at finite temperature. Symmetric and broken phases correspond to the domains $σ\leq T^2/3$ and $σ> T^2/3$, respectively. The effective potential increases very steeply at small values of $σ$. Predictions for several observables, derived from the ordinary and the gauge invariant effective potential, are compared. Good agreement is found for the critical temperature and the jump in the order parameter. The results for the latent heat differ significantly for large Higgs masses.

Gauge Invariant Treatment of the Electroweak Phase Transition

Abstract

We evaluate the gauge invariant effective potential for the composite field

in the SU(2)-Higgs model at finite temperature. Symmetric and broken phases correspond to the domains

and

, respectively. The effective potential increases very steeply at small values of

. Predictions for several observables, derived from the ordinary and the gauge invariant effective potential, are compared. Good agreement is found for the critical temperature and the jump in the order parameter. The results for the latent heat differ significantly for large Higgs masses.

Gauge Invariant Treatment of the Electroweak Phase Transition

Abstract

Gauge Invariant Treatment of the Electroweak Phase Transition

Abstract

Paper Structure