Paper Image

Plane vortex interactions reveal chiral symmetry breaking

Published on:

15 November 2023

Primary Category:

High Energy Physics - Lattice

Paper Authors:

Seyed Mohsen Hosseini Nejad

Bullets

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.

Answers from this paper

Comments

No comments yet, be the first to start the conversation...

Sign up to comment on this paper

Sign Up