Random Lattice QCD and chiral effective theories
O.V. Pavlovsky (ITPM Msu)
TL;DR
This paper explores the use of Random Lattice QCD and Random Matrix theories to derive low-energy theorems and effective chiral theories in the strong-coupling regime, aiming to connect lattice regularization with baryon physics.
Contribution
It introduces a novel approach applying Random Lattice regularization to derive low-energy chiral theories in baryon physics, extending ideas from Random Matrix theories.
Findings
Development of low-energy theorems in the Born-Infeld form
Application of Random Lattice QCD to baryon physics
Proposed framework for strong-coupling regime analysis
Abstract
Resent developments in the Random Matrix and Random Lattice Theories give a possibility to find low-energy theorems for many physical models in the Born-Infeld form. In our approach that based on the Random Lattice regularization of QCD we try to used the similar ideas in the low-energy baryon physics for finding of the low-energy theory for the chiral fields in the strong-coupling regime.
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Taxonomy
TopicsQuantum Chromodynamics and Particle Interactions · Theoretical and Computational Physics · High-Energy Particle Collisions Research