pQCD calculations predict jet quenching suppression scaling as R_AB ≈ (√(AB))^{1/3} in small ion collisions, with ^{3}He and ^{6}Li as clean QGP probes and energy loss models giving v_2 ≈ 0 in small systems.
From Lead to Helium: Discovery Potential for Jet Quenching in the Smallest Collision Systems2025
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A refined HIJING initial-condition model with geometric bias from impact-parameter effects, combined with Boltzmann jet transport, describes the centrality dependence of charged-hadron suppression in 5.02 TeV Pb+Pb collisions.
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Jet Quenching in the Smallest Hadronic Collision Systems
pQCD calculations predict jet quenching suppression scaling as R_AB ≈ (√(AB))^{1/3} in small ion collisions, with ^{3}He and ^{6}Li as clean QGP probes and energy loss models giving v_2 ≈ 0 in small systems.
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Geometric bias and centrality dependence of jet quenching in high-energy nuclear collisions
A refined HIJING initial-condition model with geometric bias from impact-parameter effects, combined with Boltzmann jet transport, describes the centrality dependence of charged-hadron suppression in 5.02 TeV Pb+Pb collisions.