From 3D dualities to hadron physics
Naoto Kan, Ryuichiro Kitano, S. Yankielowicz, Ryo Yokokura
Abstract
When one spacetime dimension is compactified on ${S}^{1}$, QCD exhibits a chiral phase transition at some critical radius. When we further turn on a background $\ensuremath{\theta}$ term which depends on the ${S}^{1}$ compactified coordinate, a topological ordered phase appears at low energy via the winding of $\ensuremath{\theta}$. We discuss what kind of theories can describe the physics near the critical point by requiring the matching of topological field theories in the infrared. As one of the possibilities, we propose a scenario where the $\ensuremath{\rho}$ and $\ensuremath{\omega}$ mesons form a $U({N}_{f})$ gauge theory near the critical point. In the phase where chiral symmetry is restored, they become the dual gauge boson of the gluon related by the level-rank duality between the three-dimensional gauge theories $SU(N{)}_{{N}_{f}}$ and $U({N}_{f}{)}_{\ensuremath{-}N}$.