Structure of the Medium Formed in Heavy Ion Collisions

Garcia, J. R. A.; Herrera, Diana Rosales; Téllez, A. Fernández; Díaz, Bogar; Ramírez, J. E.

doi:10.3390/universe9060291

Universe

2023

DOI: 10.3390/universe9060291

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Structure of the Medium Formed in Heavy Ion Collisions

J. R. A. Garcia

Diana Rosales Herrera

A. Fernández Téllez

et al.

Abstract: We investigate the structure of the medium formed in heavy ion collisions using three different models: the Color String Percolation Model (CSPM), the Core–Shell-Color String Percolation Model (CSCSPM), and the Color Glass Condensate (CGC) framework. We analyze the radial distribution function of the transverse representation of color flux tubes in each model to determine the medium’s structure. Our results indicate that the CSPM behaves as an ideal gas, while the CSCSPM exhibits a structural phase transition … Show more

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2024

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Entropy and heat capacity of the transverse momentum distribution for pp collisions at RHIC and LHC energies

Rosales Herrera,

Alvarado García,

Fernández Téllez

et al. 2024

Phys. Rev. C

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We investigate the transverse momentum distribution (TMD) statistics from three different theoretical approaches. In particular, we explore the framework used for string models, wherein the particle production is given by the Schwinger mechanism. The thermal distribution arises from the Gaussian fluctuations of the string tension. The hard part of the TMD can be reproduced by considering heavy tailed string tension fluctuations, for instance, the Tsallis q-Gaussian function, giving rise to a confluent hypergeometric function that fits the entire experimental TMD data. We also discuss the QCD-based Hagerdon function, another family of fitting functions frequently used to describe the spectrum. We analyze the experimental data of minimum bias pp collisions reported by the BNL Relativistic Heavy Ion Collider (RHIC) and the CERN Large Hadron Collider (LHC) experiments (from s=0.2 TeV to s=13 TeV). We extracted the corresponding temperature by studying the behavior of the spectra at low transverse momentum values. For the three approaches, we compute all moments, highlighting the average, variance, and kurtosis. Finally, we compute the Shannon entropy and the heat capacity through the entropy derivative with respect to the temperature. We found that the q-Gaussian string tension fluctuations lead to a monotonically increasing heat capacity as a function of the center-of-mass energy, which is also observed for the Hagedorn fitting function. This behavior is consistent with the experimental observation that the temperature slowly rises with increments of the collision energy. Published by the American Physical Society 2024

show abstract

Entropy and heat capacity of the transverse momentum distribution for pp collisions at RHIC and LHC energies

Rosales Herrera,

Alvarado García,

Fernández Téllez

et al. 2024

Phys. Rev. C

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show abstract

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Structure of the Medium Formed in Heavy Ion Collisions

Cited by 1 publication

References 62 publications

Entropy and heat capacity of the transverse momentum distribution for pp collisions at RHIC and LHC energies

Entropy and heat capacity of the transverse momentum distribution for pp collisions at RHIC and LHC energies

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