Directed flow of quarks from the RHIC Beam Energy Scan measured by STAR

Abstract

Directed flow (v1) is a good probe of the early-stage dynamics of collision systems, and the v1 slope at midrapidity (dv1/dy|y=0) is sensitive to the system's equation of state. STAR has published v1(y) measurements for ten particle species (π, p, p, , , φ, K and K0S) in Au+Au collisions at eight beam energies from sNN = 7.7 GeV to 200 GeV. In this study, we employ a simple coalescence idea to decompose v1 of hadrons into v1 of constituent quarks. The dv1/dy values of p, K- and are used to test the coalescence sum rule for produced quarks. Data involving produced quarks support the coalescence picture at sNN = 11.5 GeV to 200 GeV, and a sharp deviation from this picture is observed at 7.7 GeV. The dv1/dy of transported quarks is studied via net particles (net p and net ). In these proceedings, we further extract the v1 slopes of produced and transported quarks, assuming that the coalescence sum rule is valid.