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We present leading hadron suppression predictions in Pb+Pb and p+Pb collisions from a convolved radiative and collisional energy loss model in which partons propagate through a realistic background, and in which the radiative energy loss receives a short pathlength correction. We find that the short pathlength correction is small for D meson R₀₀ (pT) in both Pb+Pb and p+Pb collisions. However the short pathlength correction leads to a surprisingly large reduction in suppression for mesons in p+Pb and even Pb+Pb collisions, providing a qualitative explanation for the rapid rise in meson R₀₀ (pT) at the LHC. We find that the size of the short pathlength correction to R₀₀ (pT) is acutely sensitive to the chosen distribution of scattering centers in the plasma. Furthermore we find that conventional elastic energy loss models, which apply the central limit theorem to the number of scatterings, dramatically overpredict suppression in p+A collisions, calling for short pathlength corrections to elastic energy loss.
Horowitz et al. (Fri,) studied this question.
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