Investigating the Bulk Properties of Charged Particles in Different η Bins Using a Modified Tsallis Model
Abstract
This paper presents a comprehensive analysis of the double-differential pT distributions of charged particles in twelve distinct pseudorapidity regions of equal width in pp collisions at center-of-mass energies of 0.9, 2.36, and 7 TeV. Utilizing the modified Tsallis function with mean transverse flow velocity, our study demonstrates a very good agreement between experimental data and the model employed. The fit quality is consistently high across all pT ranges, as assessed by Data/Fit panels accompanying each plot. Extracted parameters, including kinetic freeze-out temperature (T0), transverse flow velocity (βT), non-extensivity parameter (q) and mean transverse momentum pT dependencies are shown on pseudorapidity (η) and collision energy (s). T0, βT and pT exhibit a decreasing trend with increasing η due to lower in energy transfer along high η regions, while they show a heightened sensitivity to s. q increases with η, indicating a closer thermal equilibrium in mid-η particles. The paper also explores correlations among these parameters, emphasizing relationships between T0, βT, q and pT . Our study provides valuable insights into the thermal and dynamic characteristics of high-energy proton-proton collisions, contributing to the broader understanding of the bulk properties of nuclear matter produced in these interactions.
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