Impact of particle production mechanisms on pseudorapidity distribution and directed flow in Au+Au and Cu+Cu collisions at sNN = 19.6 GeV using AMPT model

Abstract

The STAR experiment at the top RHIC energy has observed that the directed flow (v1) of inclusive light hadrons is independent of the collision system size at a given centrality~STAR:2008jgm. However, recent STAR measurements indicate a system-size dependence in the v1(y)-slope (dv1/dy) of protons, antiprotons, and their differences ( dv1/dy) at a given centrality, suggesting a potential influence of baryon production and transport mechanisms~Taseer:SQM2024talk. We have studied pseudorapidity (dN/dy) distributions and directed flow (v1 and dv1/dy) for pions, kaons, and protons in Au+Au and Cu+Cu collisions at sNN = 19.6 GeV using the A Multi-Phase Transport (AMPT) model. Specifically, we investigated the influence of string junction parameters in AMPT via the PYTHIA/JETSET routines, focusing on the popcorn mechanism and string-splitting parameters, on dN/dy, dv1/dy, and their charge-dependent splittings ( dN/dy and dv1/dy). We observe that string junction parameters can affect dN/dy, dv1/dy, dN/dy, and dv1/dy for π, K, and p, and influence their system-size dependence. The effect is most prominent on the v1 of protons, non-trivial for kaons, while the pions v1 remain largely unchanged. These findings provide insights into the interplay between particle production mechanisms, baryon transport, and directed flow in heavy-ion collisions.