Longitudinal flow decorrelation in heavy-ion collision at RHIC energies using a multi-phase transport model

Abstract

We present a study on the longitudinal flow decorrelation in heavy-ion collisions at the RHIC Beam Energy Scan (BES) energies (sNN = 11.5 to 200 GeV in Au+Au collisions) using the AMPT model. We measure the second and third order factorization ratios (r2 and r3) across BES energies, finding r2 weakly dependent on collision energy while r3 shows a more prominent collision energy dependent. The effect of parton-parton scattering cross section on r2 and r3 is studied which suggests that longitudinal decorrelation could be a potential observable to constrain transport properties of the medium. We also analyze the contributions of flow-plane and flow magnitude decorrelation, with flow-plane decorrelation being dominant. we measure a recently proposed observable, the four particle cumulant (T2), which remains resilient to non-flow effects and exhibits sensitivity to different decorrelation patterns. Through the measurement of T2, we consistently observe a hint of S-shaped or torqued decorrelation across all energy ranges in peripheral collisions (40-80\%). But in central and mid-central collisions, presence of any specific pattern of decorrelation is missing in AMPT model.