Abstract
Abstract A significant difference in the elliptic flow v 2 for particles and their corresponding antiparticles, which is more pronounced for baryons and anti-baryons, was observed in the STAR experiment during the Beam Energy Scan I (BES-I) at RHIC. By employing the SMASH model, we study the v 2 difference between protons and anti-protons, as well as between Λ and Λ, in Au + Au collisions at sNN = 7.7 GeV as a function of evolution time. It finds that as the evolution time increases, the v 2 difference between protons and anti-protons becomes more pronounced compared to that between Λ and Λ. This phenomenon can be explained by the different constituent quarks of protons and Λ. Since some of the u quarks and d quarks come from the colliding nuclei and are transported to mid-rapidity, they undergo more interactions than produced quarks, resulting in the proton △v 2 being larger than the Λ △v 2. We compare the SMASH calculations with STAR BES-I data and argue that higher precision data from BES-II will provide constraints on theoretical frameworks to interpret the v 2 differences of particles and anti-particles.
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