Longitudinal Flow Decorrelations in Xe+Xe Collisions at sNN=5.44  

“…For the geometric correlators we find that the decorrelation with rapidity is stronger for n = 3 than n = 2. This is consistent with experimental observations in heavy ion collisions [87,88]. The decorrelation scales only approximately with α s as we see small differences between the α s = 0.15 and α s = 0.3 case.…”

Rapidity dependence of initial state geometry and momentum correlations in p+Pb collisions

“…For the geometric correlators we find that the decorrelation with rapidity is stronger for n = 3 than n = 2. This is consistent with experimental observations in heavy ion collisions [87,88]. The decorrelation scales only approximately with α s as we see small differences between the α s = 0.15 and α s = 0.3 case.…”

Rapidity dependence of initial state geometry and momentum correlations in p+Pb collisions

“…suggests possible longitudinal decorrelation, which affects the strength of the correlation for particles separated in pseudorapidity [37,38]. The decorrelation effects were observed between the v n measured in two η ranges [39][40][41], but in the present case the decorrelation between v n and [p T ] might also play a role. We leave this topic to dedicated study in the future.…”

Probing nuclear quadrupole deformation from correlation of elliptic flow and transverse momentum in heavy ion collisions

“…The r 2|2 > r 3|3 > r 4|4 decrease linearly with η and F 2 shows a strong centrality dependence, being smallest in the 20-30% centrality interval and larger towards more-central and more-peripheral collisions. This strong centrality dependence is due to the average elliptic geometry in mid-central collisions, which dominates v 2 and makes this coefficient less sensitive to decorrelations, while the fluctuation-driven collision geometries dominate in central and peripheral collisions [8].…”

Collective dynamics of heavy ion collisions in ATLAS