Decorrelation of participant and spectator angular momenta in heavy-ion collisions

Abstract

High-energy heavy-ion collisions contain enormous angular momentum, |J|, which is O(103-106) in the range of collision energy, sNN, spanned experimentally by the Relativistic Heavy Ion Collider (RHIC) and the Large Hadron Collider (LHC). A fraction of J is transferred to the overlapping collision region, which is indispensable for measuring observables such as vorticity-driven hadron spin alignment with J. Experiments estimate the orientation of J of the participant nucleons within the collision overlap region, Jpart, by using that of the forward- and backward-going spectating nucleons Jspec. Using two models, we study the decorrelation between Jpart and Jspec, driven both by angular-momentum conservation and event-by-event fluctuations, as well as by the decorrelation between the orientation of the elliptic overlap region and the Jpart. sNN-dependent decorrelation is observed in both of these cases and is large enough to be an important corrective factor used when experimentally observing phenomena driven by J.