Related papers: When the center matters: color screening and gluelumps in dihedral lattice gauge theories

When the center matters: color screening and gluelumps in dihedral lattice gauge theories

URL: http://arxiv.org/abs/2512.00152v1
Date: Fri, 28 Nov 2025 19:00:01 GMT
Title: When the center matters: color screening and gluelumps in dihedral lattice gauge theories
Authors: Pavel P. Popov, Edoardo Ballini, Alberto Bottarelli, Michele Burrello, Pietro Silvi, Matteo M. Wauters, Philipp Hauke,
Abstract summary: Confinement is one of the hallmarks of quantum chromodynamics (QCD)<n>We show that the physical consequences of confinement in a class of discrete non-Abelian lattice gauge theories (LGTs)<n>Our results showcase how the rich and intricate physics typically associated with QCD can emerge in simpler LGTs.
Score: 0.0
License: http://creativecommons.org/licenses/by/4.0/
Abstract: Confinement is one of the hallmarks of quantum chromodynamics (QCD). Yet, its first-principle characterization, even in simpler models, remains elusive. Through a combination of group-theoretical arguments and numerical analysis, we show that the physical consequences of confinement in a class of discrete non-Abelian lattice gauge theories (LGTs), the dihedral groups $D_N$, are intimately connected with the presence of a $\mathbb{Z}_2$ central subgroup. When the center is trivial (for odd $N$), static charges are screened by a gluon cloud, forming composite objects known in SU$(N)$ gauge theories as gluelumps. This finding implies that string breaking can occur through fluctuations of the electric field only, without the need to nucleate particle--antiparticle pairs from the vacuum. Furthermore, numerical analysis hints at finite-range interactions between the gluelumps in the continuum limit. Our results showcase how the rich and intricate physics typically associated with QCD can emerge in much simpler discrete non-Abelian LGTs, making them ideal settings to test this phenomenology both in numerical calculations and in near-term quantum devices.

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