Related papers: Scaling flow-based approaches for topology sampling in $\mathrm{SU}(3)$ gauge theory

Scaling flow-based approaches for topology sampling in $\mathrm{SU}(3)$ gauge theory

URL: http://arxiv.org/abs/2510.25704v1
Date: Wed, 29 Oct 2025 17:12:21 GMT
Title: Scaling flow-based approaches for topology sampling in $\mathrm{SU}(3)$ gauge theory
Authors: Claudio Bonanno, Andrea Bulgarelli, Elia Cellini, Alessandro Nada, Dario Panfalone, Davide Vadacchino, Lorenzo Verzichelli,
Abstract summary: We develop a methodology based on out-of-equilibrium simulations to mitigate topological freezing when approaching the continuum limit of lattice gauge theories.<n>We reduce the autocorrelation of the topological charge employing open boundary conditions, while removing exactly their unphysical effects using a non-equilibrium Monte Carlo approach.<n>We obtain superior performances with respect to the purely non-equilibrium approach, and paving the way for more efficient future flow-based solutions.
Score: 34.54607280864912
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We develop a methodology based on out-of-equilibrium simulations to mitigate topological freezing when approaching the continuum limit of lattice gauge theories. We reduce the autocorrelation of the topological charge employing open boundary conditions, while removing exactly their unphysical effects using a non-equilibrium Monte Carlo approach in which periodic boundary conditions are gradually switched on. We perform a detailed analysis of the computational costs of this strategy in the case of the four-dimensional $\mathrm{SU}(3)$ Yang-Mills theory. After achieving full control of the scaling, we outline a clear strategy to sample topology efficiently in the continuum limit, which we check at lattice spacings as small as $0.045$ fm. We also generalize this approach by designing a customized Stochastic Normalizing Flow for evolutions in the boundary conditions, obtaining superior performances with respect to the purely stochastic non-equilibrium approach, and paving the way for more efficient future flow-based solutions.

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