Can Binary Bound States in a Strongly Coupled Quark-Gluon Plasma be observed via dileptons and photons?
Abstract
Recently there was a significant change of views on physical properties and underlying dynamics of Quark-Gluon Plasma at T=170-350 MeV, produced in heavy ion collisions at RHIC. Instead of weakly coupled gas of quasiparticles, it is rather a liquid-like matter with multiple bound states. In this paper we discuss how one can test these ideas experimentally, using the ``penetrating probes'' and looking for certain peaks at some invariant masses. In dileptons the most promising are modified ,ω, with M(T≈ Tc) .5 GeV and also near zero binding at M(T≈ (1.5-2)Tc)=1.5-2 GeV. We also discuss the observability of peaks corresponding to scalar/pseudoscalar mesons in the two-photon channel.
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