TL;DR
This paper introduces a matrix model approach to multicolor induced QCD using a quenched momentum prescription, simplifying the model to a one-dimensional quantum problem while preserving key correlator properties.
Contribution
It presents a novel matrix model framework for induced QCD that reduces spatial complexity and maintains correlator equivalence with lower-dimensional models.
Findings
Partition function determined by a one-dimensional quantum mechanical problem
Scalar field correlators in D dimensions match those in two-dimensional induced QCD
Model exhibits reduction of spatial degrees of freedom
Abstract
Matrix model approach to multicolor induced QCD based on the quenched momentum prescription is presented. It is shown that this model exhibits the reduction of spatial degrees of freedom: the partition function is determined by the solution of one dimensional quantum mechanical problem while the D-dimensional scalar field correlators coinside with the same type correlators in the two-dimensional induced QCD.
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Taxonomy
TopicsBlack Holes and Theoretical Physics · Quantum Chromodynamics and Particle Interactions · Particle physics theoretical and experimental studies