Thermal Dynamics of Quarks and Mesons in N=2* Yang-Mills Theory

Abstract

We study the dynamics of quenched fundamental matter in N=2 supersymmetric large Nc SU(Nc) Yang-Mills theory, extending our earlier work to finite temperature. We use probe D7-branes in the holographically dual thermalized generalization of the N=2 Pilch-Warner gravitational background found by Buchel and Liu. Such a system provides an opportunity to study how key features of the dynamics are affected by being in a non-conformal setting where there is an intrinsic scale, set here by the mass, mH, of a hypermultiplet. Such studies are motivated by connections to experimental studies of the quark-gluon plasma at RHIC and LHC, where the microscopic theory of the constituents, QCD, has a scale, QCD. We show that the binding energy of mesons in the N=2 theory is increased in the presence of the scale mH, and that subsequently the meson-melting temperature is higher than for the conformal case.