Litcius/Paper detail

Ergodic sampling of the topological charge using the density of states

Guido Cossu, David Lancaster, Biagio Lucini, Roberto Pellegrini, Antonio Rago

2021The European Physical Journal C19 citationsDOIOpen Access PDF

Abstract

Abstract In lattice calculations, the approach to the continuum limit is hindered by the severe freezing of the topological charge, which prevents ergodic sampling in configuration space. In order to significantly reduce the autocorrelation time of the topological charge, we develop a density of states approach with a smooth constraint and use it to study SU(3) pure Yang Mills gauge theory near the continuum limit. Our algorithm relies on simulated tempering across a range of couplings, which guarantees the decorrelation of the topological charge and ergodic sampling of topological sectors. Particular emphasis is placed on testing the accuracy, efficiency and scaling properties of the method. In their most conservative interpretation, our results provide firm evidence of a sizeable reduction of the exponent z related to the growth of the autocorrelation time as a function of the inverse lattice spacing.

Topics & Concepts

Ergodic theoryTopological quantum numberAutocorrelationLattice (music)Statistical physicsStationary ergodic processMathematicsDecorrelationErgodicityTopology (electrical circuits)Limit (mathematics)ScalingSampling (signal processing)PhysicsTopological entropy in physicsProbability density functionHomogenization (climate)ExponentInverseConstraint (computer-aided design)Range (aeronautics)Charge (physics)Quantum Chromodynamics and Particle InteractionsQuantum many-body systemsHigh-Energy Particle Collisions Research