Relating high-energy lepton-hadron, proton-nucleus and nucleus-nucleus collisions through geometric scaling

Abstract

A characteristic feature of small-x lepton-proton data from HERA is geometric scaling -- the fact that over a wide range of x and Q2 all data can be described by a single variable Q2/Qsat2(x), with all x-dependence encoded in the so-called saturation momentum Qsat(x). Here, we observe that the same scaling ansatz accounts for nuclear photoabsorption cross sections and favors the nuclear dependence Qsat,A2 AαQsat2, α 4/9. We then make the empirical finding that the same A-dependence accounts for the centrality evolution of the multiplicities measured in Au+Au collisions at RHIC. It also allows to parametrize the high-pt particle suppression in d+Au collisions at forward rapidities. If these geometric scaling properties have a common dynamical origin, then this A-dependence of Qsat,A2 should emerge as a consequence of the underlying dynamical model.

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