Exact computation of the small-fluctuation determinant around a sphaleron

Citations Over TimeTop 10% of 1990 papers

Abstract

We compute exactly, in the high-temperature limit, the determinant $\ensuremath{\kappa}$ of small fluctuations around the sphaleron configuration of electroweak theory, exploiting the symmetry of the sphaleron under spatial rotations combined with isospin and custodial SU(2) transformations. For the ratio $\frac{\ensuremath{\lambda}}{{g}^{2}}$ of scalar four-point coupling $\ensuremath{\lambda}$ to gauge coupling ${g}^{2}$ near unity, we find that $\ensuremath{\kappa}$ is 0.03. For $\frac{\ensuremath{\lambda}}{{g}^{2}}$ large corresponding to a strongly coupled Higgs phase, or for $\frac{\ensuremath{\lambda}}{{g}^{2}}$ very small tending to the Coleman-Weinberg limit, we find that the determinant strongly suppresses the rate of baryon-number-changing processes.

Related Papers

• → Sphaleron transitions and baryon asymmetry: A numerical, real-time analysis(1991)179 cited
• → The sphaleron rate through the electroweak cross-over(2012)61 cited
• → Electroweak sphaleron in a magnetic field(2023)7 cited
• → Sphalerons and Electroweak Strings(1995)