The time evolution of both proton and anti-proton v2 flows from Au+Au collisions at √SNN=7.7 GeV are examined by using both pure cascade and mean-field potential versions of the UrQMD model. Due to a stronger repuls...The time evolution of both proton and anti-proton v2 flows from Au+Au collisions at √SNN=7.7 GeV are examined by using both pure cascade and mean-field potential versions of the UrQMD model. Due to a stronger repulsion at the early stage introduced by the repulsive potentials and hence much less annihilation probabilities, anti-protons are frozen out earlier with smaller v2 values. Therefore, the experimental data of anti-proton v2 as well as the flow difference between proton and anti-proton can be reasonably described with the potential version of UrQMD.展开更多
基金the National Natural Science Foundation of China(Grant Nos.1137506211547312,and 11275068)the project sponsored by SRF for ROCS,SEM,and the Doctoral Scientific Research Foundation(Grant No.11447109)
文摘The time evolution of both proton and anti-proton v2 flows from Au+Au collisions at √SNN=7.7 GeV are examined by using both pure cascade and mean-field potential versions of the UrQMD model. Due to a stronger repulsion at the early stage introduced by the repulsive potentials and hence much less annihilation probabilities, anti-protons are frozen out earlier with smaller v2 values. Therefore, the experimental data of anti-proton v2 as well as the flow difference between proton and anti-proton can be reasonably described with the potential version of UrQMD.
