We investigate quark potential by considering meson exchanges in the two flavor Nambu--Jona-Lasinio model at finite temperature and density. There are two kinds of oscillations in the chiral restoration phase, one is the Friedel oscillation due to th
e sharp quark Fermi surface at high density, and the other is the Yukawa oscillation driven by the complex meson poles at high temperature. The quark-meson plasma is strongly coupled in the temperature region $1le T/T_c lesssim 3$ with $T_c$ being the critical temperature of chiral phase transition. The maximum coupling in this region is located at the critical point.
In high-energy collisions, massive heavy quarks are produced back-to-back initially and they are sensitive to early dynamical conditions. The strong collective partonic wind from the fast expanding quark-gluon plasma created in high-energy nuclear co
llisions modifies the correlation pattern significantly. As a result, the angular correlation function for D$bar{rm D}$ pairs is suppressed at the angle $Deltaphi=pi$. While the hot and dense medium in collisions at RHIC ($sqrt{s_{NN}}=200$ GeV) can only smear the initial back-to-back D$bar {rm D}$ correlation, a clear and strong near side D$bar{rm D}$ correlation is expected at LHC ($sqrt{s_{NN}}=5500$ GeV).
