Transport Coefficient to Trace Anomaly in the Clustering of Color Sources Approach

Abstract

From our previously obtained shear viscosity to entropy density ratio (η/s) in the framework of clustering of color sources (Color String Percolation Model: CSPM), we calculate the jet quenching parameter q and trace anomaly = ( -3 p)/T4 as a function of temperature. It is shown that the scaled q/T3 is in agreement with the recent JET Collaboration estimates. The inverse of η/s is found to represent . The results for are in excellent agreement with Lattice Quantum Chromo Dynamics (LQCD) simulations. From the trace anomaly and energy density ε, the equation of state is obtained as a function of temperature and compared with LQCD simulations. It is possible that there is a direct connection between the η/s and . Thus the estimate of transport coefficient η/s provides q and as a function of temperature. Both and η/s describe the transition from a strongly coupled QGP to a weakly coupled QGP.