Critical behavior of the thermal phase transition of U(1) lattice gauge systems

TL;DR

This study models the superconductor phase transition as a U(1) lattice gauge system, using Monte Carlo simulations to analyze its critical behavior and universality class.

Contribution

It provides a gauge-invariant analysis of the critical behavior of U(1) lattice gauge systems modeling superconductors, clarifying their universality class.

Findings

Critical exponent β matches that of Bose-Einstein condensation.

Heat capacity behavior is consistent with XY transition.

Results clarify the universality class of the phase transition.

Abstract

We model the phase transition of a superconductor as a U(1) lattice gauge system, and determine its critical behavior. For this, we perform Monte Carlo simulations, treating the order parameter field and the gauge field on equal footing, without additional approximations. As the defining correlation function, we determine the order parameter correlation function including a gauge string, thus achieving a gauge-invariant characterization of the long-range behavior explicitly. We obtain a critical exponent $\beta$ that is consistent with the exponent of the U(1) transition of neutral bosons, i.e. of Bose-Einstein condensation. We determine the critical behavior of the heat capacity, which displays a temperature depends consistent with an XY transition. These results clarify the universality class of the phase transition of this system.