Left-right splitting of elliptic flow in heavy ion collisions: TRENTo-3D initialization and CLVisc hydrodynamic simulations

Abstract

Using the TRENTo-3D initial condition model coupled with (3+1)-dimensional CLVisc hydrodynamic simulations, we systematically investigate the left-right splitting of elliptic flow ( v2) for soft particles in relativistic heavy-ion collisions. Our study reveals that the final distribution characteristics of v2 are primarily depend on the odd flow harmonics and v2 itself. We find that the parton transverse momentum scale kT not only determines the geometric tilt of the QGP fireball but also significantly affects the rapidity dependence of both v1 and v2, providing new insights into the splitting mechanism of v2. Furthermore, our results demonstrate that v2 (pT) exhibits significant sensitivity to influences such as the sub-nucleonic degrees of freedom (or `hotspots'), transverse momentum scale, and fragmentation region profile. By analyzing the v2 and v2/v2 ratio, our findings provide new constraints on the uncertainties of the QGP initial state and provide additional constraints for refining model parameters.