Real-time fermions for baryogenesis simulations

A Hernandez; A Rajantie; A Tranberg; A Tranberg; A Tranberg; A Tranberg; AG Cohen; Anders Tranberg; C Garcia-Recio; EJ Copel; G Aarts; G Aarts; GD Moore; J García-Bellido; J García-Bellido; J Smit; J Smit; K Kajantie; K Kajantie; LL Salcedo; LM Krauss; ME Shaposhnikov; Paul M. Saffin; S Borsányi; VA Kuzmin; VA Rubakov

research

Real-time fermions for baryogenesis simulations

Authors: A Hernandez
A Rajantie
A Tranberg
A Tranberg
A Tranberg
A Tranberg
AG Cohen
Anders Tranberg
C Garcia-Recio
EJ Copel
G Aarts
G Aarts
GD Moore
J García-Bellido
J García-Bellido
J Smit
J Smit
K Kajantie
K Kajantie
LL Salcedo
LM Krauss
ME Shaposhnikov
Paul M. Saffin
S Borsányi
VA Kuzmin
VA Rubakov
Publication date: 27 May 2011
Publisher: 'Springer Science and Business Media LLC'
Doi

Abstract

We study how to numerically simulate quantum fermions out of thermal equilibrium, in the context of electroweak baryogenesis. We find that by combining the lattice implementation of Aarts and Smit [1] with the "low cost" fermions of Borsanyi and Hindmarsh [2], we are able to describe the dynamics of a classical bosonic system coupled to quantum fermions, that correctly reproduces anomalous baryon number violation. To demonstrate the method, we apply it to the 1+1 dimensional axial U(1) model, and perform simulations of a fast symmetry breaking transition. Compared to solving all the quantum mode equations as in [1], we find that this statistical approach may lead to a significant gain in computational time, when applied to 3+1 dimensional physics