Probing jet-medium interactions via jet substructure observables in relativistic heavy-ion collisions

Abstract

We present a comprehensive study of jet substructure observables in pp and PbPb collisions at sNN = 5.02~TeV using a multi-phase transport model. To suppress background contamination, the constituent subtraction method is employed for both PbPb and smeared pp events. The jet splitting momentum fraction (zg) and the groomed jet mass to the ungroomed jet transverse momentum (Mg / pT,jet) are reconstructed using the Soft Drop algorithm with two grooming parameter settings. With zcut = 0.1 and β = 0.0, a slight modification in the zg distribution is observed in central PbPb collisions, whereas a pronounced enhancement in the high Mg / pT,jet region is found, particularly at low pT,jet and in more central events. A detailed analysis of the dynamical evolution stages reveals that this enhancement primarily originates from jet-medium interactions, whereas the contributions from hadronization and hadronic rescatterings are largely mitigated by the grooming procedure. In contrast, under a stronger grooming condition (zcut = 0.5, β = 1.5), no significant changes in Mg / pT,jet are observed, indicating that the medium-induced modifications are predominantly associated with large-angle scattering.