First Demonstration that Quark-Gluon Plasma has a Nonzero Resolution Length
Abstract
We report on our investigation in arXiv:2509.08881 of how recent jet substructure measurements constrain the resolution length L res of the quark-gluon plasma formed in heavy-ion collisions. L res is defined such that high-energy partons within a jet shower are resolved by the medium if and only if they are separated by a distance greater than L res. Using the Hybrid Model, we reproduce ALICE data on the scaled Soft Drop angle θg for R=0.2 charged-particle jets and ATLAS data on the Hard Group angle R12 for R=1 jets reclustered from skinny R = 0.2 inclusive subjets. We find that the narrowing of the θg-distribution in PbPb collisions observed by ALICE and the suppression of R=1 jets with multiple skinny subjets in PbPb collisions observed by ATLAS rule out L res = ∞, where each entire parton shower loses energy to the plasma coherently as if it were a single colored object. We then compare Hybrid Model calculations to ATLAS measurements of R AA of R=1 jets reclustered from R=0.2 subjets, as a function of the Soft Drop angle dR12 obtained by grooming all charged-particle tracks associated with each R=1 jet. We demonstrate, for the first time, that the ATLAS data is inconsistent with L res = 0, where the plasma resolves every splitting in a parton shower. Our results agree best with the data when QGP possesses a finite, nonzero L res (1-2)/(π T).
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