Extracting the speed of sound of QCD from transverse momentum fluctuations

Abstract

We extract the speed of sound (cs) in the quark-gluon plasma from ATLAS data on the probability distribution of the transverse momentum per particle, [pT], in ultra-central Pb+Pb collisions. With an ideal detector, cs can be inferred from the rise of the mean [pT] with the collision multiplicity. In practice, however, low-pT particles escape detection, which biases the analysis. We show how to correct for this bias by using data on the variance of [pT], as well as information from the recently-measured v0(pT). We also introduce a systematic method for deblurring the noise from the hadronization process. Assuming that the size of the quark-gluon plasma is independent of the hadron multiplicity in collisions at zero impact parameter, which is the scenario preferred both by high-energy QCD and heavy-ion data, we obtain cs/c=0.496 0.008 at temperature T=221 13 MeV, in perfect agreement with first-principles calculations from lattice QCD.

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