Transverse Energy Density of Produced Charged Prticles at √sNN =193 GeV

In this research article, a particular attention has been paid to the Uranium-Uranium collisions at 193 GeV c.m. energy in MC Glauber model by implementing some modifications.  The larger size and prolate shape of Uranium nuclei gives us oppurtunity to have different angular orientations and is utilized here to better understand the properties of Quantum chromodnamics (QCD) matter through charged particle production. To analyse the charged particle production in collisions of deformed Uranium nuclei at √sNN = 193 GeV, a simulation study is performed in the context of  modified MC Glauber model (MCGM). The study of various possible configurations of Uranium nuclei in a collision event is performed using modified MCGM calculations and analysis performed is presented here. Centrality dependence of Transverse energy density of produced particles in Uranium-Uranium collisions is studied. The simulation results obtained reproduce the observed correlation between the measurable quantities and initial geometrical configurations as observed in collision experiments.