Jet Quenching in the Smallest Hadronic Collision Systems

Abstract

We present perturbative quantum chromodynamics (pQCD) predictions for high-momentum particle yield modification in very light ion collisions - 10B+10B, 6Li+6Li, 4He+4He, and 3He+3He - with and without medium-induced energy loss. We find non-trivial suppression in symmetric systems from 208Pb+208Pb to 3He+3He and in asymmetric A+B systems, with the suppression scaling approximately as RAB (AB)1/3. Further, we find that 3He and 6Li offer particularly clean environments for observing final-state partonic energy loss from quark-gluon plasma (QGP) formation in extremely small systems. Finally, we show that energy loss models generically predict v2\SP\ ≈ 0 in small systems, indicating that the large measured v2 > 0 in p+208Pb is not due to energy loss.