Light front analysis towards the study of thermalisation in pp collisions at s= 13 TeV

Abstract

An analysis involving the light front variables of inclusively produced hadrons in proton-proton (pp) collisions to study the thermalisation and formation of a QGP-like medium is presented in this paper. Two schemes of analysis are discussed and performed with inclusively produced π, K and p(p) in the central pp collisions at s = 13 TeV simulated using the PYTHIA 8 event generator. It is shown that a group of π and K falling inside a paraboloid defined by a certain constant value of the light front variable in their respective phase space follows the Bose-Einstein statistics while the p(p) inside the similar paraboloid in its phase space follows the Fermi-Dirac statistics. It is also shown that for the π, K and p(p) with transverse momentum pT < 1 GeV in these collisions, a polynomial in pT can be constructed for a specific light front variable of the particle ζc (pT) such that the π and K with their light front variable ζ > ζc (pT) follows Bose-Einstein statistics while the p(p) with ζ > ζc (pT) follows the Fermi-Dirac statistics. The analysis can serve as a baseline for an investigation towards the QGP formation and thermalisation in the pp collisions at LHC.