Probing Saturon-like Limits in QCD Systems

Abstract

High-occupancy QCD matter enters a saturated regime when its entropy or occupancy approaches the unitarity bound 1/α, the ``saturon" criterion. We test this criterion for protons and nuclei at small x using analytic and numerical solutions of the BK equation. From these solutions we construct the gluon occupancy Ng(x) and a thermodynamic entropy S(x) via an Unruh-like temperature T = Qs/(2π) and an emergent gluon mass Mg Qs. For protons, both Ng and S rise toward small x yet stay below 1/αs in our baseline setup. For nuclei, by contrast, the nuclear entropy SA attains the 1/αs benchmark in a small-x window where the proton does not. This singles out nuclei as the natural environment to search for saturon-like behavior and motivates precision small-x measurements and high-occupancy pA and AA collisions.

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