Study of octupole deformations in Pb-Pb collisions at 5.02 TeV

Abstract

In this letter, we present the study of the role of octupole deformation in non-spherical nuclei in most-central Pb--Pb collisions at the LHC energy regime. The sensitivity of octupole deformation β3 to the QGP observables is presented by employing the Monte Carlo HYDJET++ model. Motivated by the discrepancies in the v2-to-v3 puzzle found in Pb--Pb collisions and the low-energy nuclear structure calculations of nuclear deformation, we studied the first basic observables necessary for any study in heavy-ion collisions. Using the HYDJET++ framework, we calculate the pseudorapidity distribution, transverse momentum (pT) spectra, and average anisotropic flow (v2 and v3) of primary charged hadrons with different parameters in two geometrical configurations: body-body and tip-tip types of Pb--Pb collisions. The kinematic ranges 0 < pT < 20~GeV/c and |η| < 0.8 are considered. We observe that the charged hadron multiplicity and transverse momentum spectra are dependent on the strength of the octupole deformation parameter. The v2 and v3 in body-body collisions show a weak positive correlation with β3, while the average anisotropic flow in tip-tip collisions is weakly correlated with β3 in the most-central collision region.