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Plane vortex interactions reveal chiral symmetry breaking

Published on:

15 November 2023

Primary Category:

High Energy Physics - Lattice

Paper Authors:

Seyed Mohsen Hosseini Nejad


Key Details

Studies uni-color plane vortex pairs combined with spherical and colorful vortices

Checks stability of zero and near-zero fermion modes under boundary conditions

Topological charges localize but can't stabilize uni-color vortex zero modes

Colorful charges change chirality and produce stable near-zero modes

Near-zero modes from colorful charges relate to chiral symmetry breaking

AI generated summary

Plane vortex interactions reveal chiral symmetry breaking

This paper investigates how topological charges influence zero and near-zero fermion modes in the background of plane vortex pairs. By combining uni-color and colorful vortices, the stability of the modes is analyzed with different fermion boundary conditions. Results indicate topological charges play a key role in changing fermion chirality and producing stable near-zero modes, which are signatures of chiral symmetry breaking.

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