Measurement of jet quenching in O+O collisions at sNN=200 GeV by the STAR experiment at RHIC

Abstract

The STAR experiment at the Relativistic Heavy Ion Collider presents measurements of correlations between charged hadron triggers of high transverse momenta (7 < p T < 30 GeV/c) with recoiling charged hadrons (3 < p T < 7 GeV/c) or charged--particle jets (p T, jet > 8 GeV/c) in event--activity selected O+O collisions at s NN=200 GeV. Yields of associated hadrons and jets, normalized by the number of trigger hadrons, are suppressed by approximately 20\% in high event activity relative to low event activity collisions, with an absence of suppression excluded with high significance. This suppression corresponds to a shift in p T of 0.700.15~( stat.)~0.10~( syst.) GeV/c for large--radius charged--particle jets (R=0.5), quantifying their energy redistribution due to final--state interactions. These measurements provide strong evidence for jet quenching in O+O collisions at sNN=200 GeV, offering new insight into quark--gluon plasma formation in small collision systems.