Bulk Viscosity, Speed of Sound and Contact Structure at Intermediate Coupling

Abstract

In the context of strongly coupled thermal QCD-like theories, the bulk viscosity(ζ)-to-shear viscosity(η) ratio using the type IIA-theory dual of thermal QCD-like theories was shown to vary like 13 - cs2 (arXiv:1807.04713) (cs being the speed of sound), and the same (ζη) at weak coupling using kinetic theory and finite temperature field theory, was shown and is known to vary like (13 - cs2)2 (arXiv:1807.04713). The novelties of the results of this paper are that we not only show for the first time from M theory that at intermediate coupling, with the inclusion of the O(R4) corrections, the result obtained for ζη interpolates between the strong and weak coupling results in a way consistent with lattice computations of SU(3) Gluodynamics (arXiv:0710.3717 [hep-lat]) within statistical errors (and within the temperature range permissible by our M-theory uplift), but also observe that this behavior is related to the existence of Contact 3-Structures that exist only at intermediate coupling effected by the intermediate-N "MQGP" limit of (arXiv:2211.13186[hep-th]). We also obtain an explicit dependence of ζη on (fractional powers of) the temperature-dependent/running gauge coupling (and its temperature derivative), and verify that the weak-coupling result dominates at large temperatures. We further conjecture that the aforementioned fractional-power-dependence of ζη on the gauge coupling is related to the lack of ``N-connectedness'' in the parameter space of Contact 3-Structures (as shown in arXiv:2211.13186[hep-th]).