English

Random center vortex lines in continuous 3D space-time

High Energy Physics - Lattice 2014-11-27 v1

Abstract

We present a model of center vortices, represented by closed random lines in continuous 2+1- dimensional space- time. These random lines are modeled as being piece-wise linear and an ensemble is generated by Monte Carlo methods. The physical space in which the vortex lines are defined is a cuboid with periodic boundary conditions. Besides moving, growing and shrinking of the vortex configuration, also reconnections are allowed. Our ensemble therefore contains not a fixed, but a variable number of closed vortex lines. This is expected to be important for realizing the deconfining phase transition. Using the model, we study both vortex percolation and the potential V (R) between quark and anti-quark as a function of distance R at different vortex densities, vortex segment lengths, reconnection conditions and at different temperatures. We have found three deconfinement phase transitions, as a function of density, as a function of vortex segment length, and as a function of temperature. The model reproduces the qualitative features of confinement physics seen in SU(2) Yang-Mills theory.

Keywords

Cite

@article{arxiv.1411.7089,
  title  = {Random center vortex lines in continuous 3D space-time},
  author = {Roman Höllwieser and Derar Altarawneh and Michael Engelhardt},
  journal= {arXiv preprint arXiv:1411.7089},
  year   = {2014}
}

Comments

5 pages, 3 figures

R2 v1 2026-06-22T07:12:34.568Z