Hadron multiplicity calculation: a configurational entropy approach to   the saturation scale in QCD

Gayane Karapetyan

arXiv:1912.10071·hep-ph·April 22, 2020

Hadron multiplicity calculation: a configurational entropy approach to the saturation scale in QCD

Gayane Karapetyan

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TL;DR

This paper introduces a novel approach using configurational entropy to calculate the saturation scale in QCD, accurately matching experimental data on hadron multiplicities in hadron-nucleus collisions.

Contribution

It presents a new method linking configurational entropy with the saturation scale in QCD, providing precise phenomenological predictions.

Findings

01

Configurational entropy critical points correlate with saturation scale.

02

Results match experimental data with 0.39% precision.

03

Method offers a new perspective on hadron multiplicity calculations.

Abstract

This paper investigates the configurational entropic content of hadron-nucleus collisions. Hadron multiplicities and Au nuclei are employed to compute the critical points of the configurational entropy as a function of the saturation scale in deep inelastic scatterings, in QCD. The results match phenomenological data to the precision of 0.39%.

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