Di-jet asymmetric momentum transported by QGP fluid

Abstract

We study the collective flow of the QGP-fluid which transports the energy and momentum deposited from jets. Simulations of the propagation of jets together with expansion of the QGP-fluid are performed by solving relativistic hydrodynamic equations numerically in the fully (3+1)-dimensional space. Mach cones are induced by the energy-momentum deposition from jets and extended by the expansion of the QGP. As a result, a large fraction of the transverse momentum deposited from jets is compensated by low-pT particles at large angles from the jet axis. This result is consistent with the data from the CMS Collaboration and gives a novel interpretation of them.