Topological Gluon Mass and Shear Viscosity of the Quark--Gluon Plasma

TL;DR

This paper explores how a topological gluon mass affects the shear viscosity of the quark-gluon plasma, suggesting it could explain the plasma's near-perfect fluid behavior observed in experiments.

Contribution

It introduces a gauge-invariant topological mass for gluons and analyzes its impact on plasma transport properties, providing a potential microscopic mechanism for low shear viscosity.

Findings

Topological gluon mass regularizes infrared divergences in gluon scattering.

When the gluon mass scale is comparable to gT, viscosity matches experimental estimates.

Topological mass generation may contribute to the near-perfect fluidity of QGP.

Abstract

The quark--gluon plasma produced in relativistic heavy--ion collisions behaves as a nearly perfect fluid characterized by an exceptionally small shear viscosity to entropy density ratio. Understanding the microscopic origin of this small viscosity remains an important problem in the theory of strongly interacting matter. In this work we investigate the transport properties of a gluonic plasma in a non--Abelian gauge theory in which gluons acquire a gauge--invariant mass through a topological $B\wedge F$ interaction. Integrating out the antisymmetric tensor field generates an effective massive gluon propagator that modifies the infrared behaviour of gluon exchange processes. Using relativistic kinetic theory and the Boltzmann transport equation we compute the shear viscosity of the plasma and derive the corresponding transport cross section for gluon scattering. The presence of the topological gluon mass provides a natural infrared regulator for $t$--channel gluon exchange, removing the divergence that appears in perturbative QCD with massless gluons. We show that when the topological mass scale is comparable to the soft momentum scale of the plasma, $m\sim gT$, the resulting viscosity to entropy density ratio naturally falls in the range inferred from hydrodynamic analyses of heavy--ion collision experiments. These results suggest that topological mass generation may provide a simple microscopic mechanism contributing to the near--perfect fluidity of the quark--gluon plasma.