Interpreting Numerical Measurements in Fixed Topological Sectors

Interpreting Numerical Measurements in Fixed Topological Sectors

For quantum field theories with topological sectors, Monte Carlo simulations on fine lattices tend to be obstructed by an extremely long auto-correlation time with respect to the topological charge. Then reliable numerical measurements are feasible only within individual sectors. The challenge is to...

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Veröffentlicht in:arXiv.org 2016-06
Hauptverfasser: Bietenholz, Wolfgang, Czaban, Christopher, Dromard, Arthur, Gerber, Urs, Hofmann, Christoph P, Mejía-Díaz, Héctor, Wagner, Marc
Format: Artikel
Sprache:eng
Schlagworte:
Computer simulation
Energy levels
Lattices (mathematics)
Mathematical models
Monte Carlo simulation
Physics - High Energy Physics - Lattice
Physics - High Energy Physics - Phenomenology
Quantum theory
Topology
Yang-Mills theory
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Zusammenfassung:For quantum field theories with topological sectors, Monte Carlo simulations on fine lattices tend to be obstructed by an extremely long auto-correlation time with respect to the topological charge. Then reliable numerical measurements are feasible only within individual sectors. The challenge is to assemble such restricted measurements in a way that leads to a substantiated approximation to the fully fledged result, which would correspond to the correct sampling over the entire set of configurations. We test an approach for such a topological summation, which was suggested by Brower, Chandrasekharan, Negele and Wiese. Under suitable conditions, energy levels and susceptibilities can be obtained to a good accuracy, as we demonstrate for O(N) models, SU(2) Yang-Mills theory, and for the Schwinger model.
ISSN:2331-8422
DOI:10.48550/arxiv.1603.05630