Fine-tuning the Color-Glass Condensate with the nuclear configurational entropy

TL;DR

This paper introduces a novel approach to understanding the onset of the quantum regime in the Color-Glass Condensate by linking it to a critical point in nuclear configurational entropy, aligning well with experimental data.

Contribution

It proposes a new method to fine-tune the Color-Glass Condensate model using nuclear configurational entropy, providing a more accurate description of the quantum regime onset.

Findings

Critical stable point in nuclear configurational entropy matches experimental data with 1% accuracy.

Supports the informational entropy paradigm in high energy nuclear physics.

Enhances understanding of gluon dynamics in the Color-Glass Condensate regime.

Abstract

The dipole-nucleus forward scattering amplitude rules the onset of the gluon anomalous dimension, in the Color-Glass Condensate regime. In this model, the onset of quantum regime is here derived as a critical stable point in the nuclear configurational entropy, matching the fitted experimental data in the literature with accuracy of 1%. It corroborates with the informational entropy paradigm in high energy nuclear physics.