TL;DR
This paper explores a novel duality between non-supersymmetric 4D Yang-Mills theory and a twisted string theory in a specific spacetime, analyzing the mathematical structure and physical implications of this topological relationship.
Contribution
It introduces a new duality framework connecting non-supersymmetric QCD with twisted string theory in a unique spacetime background.
Findings
Partition function of a generic hadron calculated
Mathematical structure of twisted QCD topology analyzed
Physical implications of the twisted topology discussed
Abstract
Non-supersymmetric Yang-Mill gauge theory in 4-dimension is shown to be dual to 4-dimensional non-supersymmetric string theory in a twisted AdS2(n)xT2 spacetime background. The partition function of a generic hadron is calculated to illustrate the mathematical structure of the twisted QCD topology. The physical implications of the twisted QCD topology are discussed.
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Taxonomy
TopicsBlack Holes and Theoretical Physics · Quantum Chromodynamics and Particle Interactions · Particle physics theoretical and experimental studies