Anomalous diffusion in QCD matter

Abstract

We study the effects of quantum corrections on transverse momentum broadening of a fast parton passing through dense QCD matter. We show that, at leading logarithmic accuracy the broadening distribution tends at late times or equivalently for large system sizes L to a universal distribution that only depends on a single scaling variable k2/Q2s where the typical transverse momentum scale increases with time as Qs2 (1+2 β ) L - 32(1+β )\, L up to non-universal terms, with an anomalous dimension β αs . This property is analogous to geometric scaling of gluon distributions in the saturation regime and traveling waves solutions to reaction-diffusion processes. We note that since β >0 the process is super-diffusive, which is also reflected at large transverse momentum where the scaling distribution exhibits a heavy tail k4-2β akin to L\'evy random walks.