Entropy of monopoles from percolating cluster in quenched SU(2) QCD

Katsuya Ishiguro; M. N. Chernodub; Katsuya Kobayashi; Tsuneo Suzuki

arXiv:hep-lat/0308004·hep-lat·November 10, 2009

Entropy of monopoles from percolating cluster in quenched SU(2) QCD

Katsuya Ishiguro, M. N. Chernodub, Katsuya Kobayashi, Tsuneo Suzuki

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TL;DR

This paper investigates the entropy and effective degrees of freedom of monopole currents in quenched SU(2) QCD, revealing that these degrees decrease with increasing blocking scale, which enhances understanding of monopole dynamics in the infrared regime.

Contribution

It introduces a numerical analysis of monopole length distribution and action, providing new insights into the entropy behavior of monopoles in quenched SU(2) QCD.

Findings

01

Effective entropy decreases with blocking scale.

02

Monopole degrees of freedom diminish as scale increases.

03

Numerical characterization of monopole clusters in QCD.

Abstract

The length distribution and the monopole action of the infrared monopole clusters are studied numerically in quenched SU(2) QCD. We determine the effective entropy of the monopole currents which turns out to be a descending function of the blocking scale, indicating that the effective degrees of freedom of the extended monopoles are getting smaller as the blocking scale increases.

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