Scaling of Anisotropic Flows and Nuclear Equation of State in Intermediate Energy Heavy Ion Collisions

Abstract

Elliptic flow (v2) and hexadecupole flow (v4) of light clusters have been studied in details for 25 MeV/nucleon 86Kr + 124Sn at large impact parameters by Quantum Molecular Dynamics model with different potential parameters. Four parameter sets which include soft or hard equation of state (EOS) with/without symmetry energy term are used. Both number-of-nucleon (A) scaling of the elliptic flow versus transverse momentum (pt) and the scaling of v4/A2 versus (pt/A)2 have been demonstrated for the light clusters in all above calculation conditions. It was also found that the ratio of v4/v22 keeps a constant of 1/2 which is independent of pt for all the light fragments. By comparisons among different combinations of EOS and symmetry potential term, the results show that the above scaling behaviors are solid which do not depend the details of potential, while the strength of flows is sensitive to EOS and symmetry potential term.