Constraining the Resolution Length of Quark-Gluon Plasma with New Jet Substructure Measurements

Abstract

We show that recent measurements of substructure-dependent jet suppression constrain the value of the resolution length of the droplets of quark-gluon plasma (QGP) formed in heavy ion collisions. This resolution length, L res, is defined such that the medium can only resolve partons within a jet shower that are separated by more than L res. We first use Hybrid Model calculations to reproduce ALICE measurements of the scaled Soft Drop angle θg for anti-kt R = 0.2 jets reconstructed from charged-particle tracks. We find that the narrowing of the θg-distribution in PbPb collisions compared to pp collisions that is seen in the ALICE data rules out a picture of fully coherent energy loss (L res = ∞) where each entire parton shower loses energy to the plasma as if it were a single unresolved colored object. We then use Hybrid Model calculations to reproduce ATLAS measurements of dR12, the Soft Drop angle obtained by applying the Soft Drop grooming procedure to all charged-particle tracks in R=1 jets reconstructed from R = 0.2 skinny subjets. Our analysis demonstrates that the ATLAS measurements of R AA for such R = 1 jets as a function of dR12 are inconsistent with a picture of fully incoherent energy loss (L res = 0) in which every splitting in a parton shower is immediately resolved by the plasma. We find that our Hybrid Model calculations agree best with the ATLAS measurements if QGP has a finite, nonzero, resolution length L res (1-2)/(π T). For the first time, jet substructure measurements are constraining the resolution length of QGP from below, as well as from above.