Description
This is based on analysis note (AN) https://alice-notes.web.cern.ch/node/1552.
The study is inspired by the idea that non-monotonic changes in $p_{\rm T}$ correlations vary with energy and, if observed, may be taken as an indicator for the {\footnotesize QGP} formation. The finding reveals that the values of the two-particle correlator, $\sqrt{C_m}/M(p_T)_m$ decreases with increasing charged particle density and exhibits a power-law behavior similar to those reported for pp and Pb--Pb collisions at lower energies. In order to look for effects of jets and minijets, dependence of correlator, $\sqrt{C_m}/M(p_T)_m$ on charged particle density is examined by applying different $p_{\rm T}$ selection and comparing the behavior of the correlator observed for low $p_{\rm T}$ to high $p_{\rm T}$ ranges. The result further compared with different physics motivated model like Pythia(perturbative QCD) and EposLHC(Core-Corona).
Energy
13 TeV
System
p-p
Scope: PWG
PWG-CF (Flow and Correlations)
Energy
13 TeV
System
p-p
Scope: PWG
PWG-CF (Flow and Correlations)
Energy
13 TeV
System
p-p
Scope: PWG
PWG-CF (Flow and Correlations)