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Paper detail

Event simulation based on three-fluid hydrodynamics for collisions at energies available at the Dubna Nuclotron-based Ion Collider Facility and at the Facility for Antiproton and Ion Research in Darmstadt

We present a new event generator based on the three-fluid hydrodynamics approach for the early stage of the collision, followed by a particlization at the hydrodynamic decoupling surface to join to a microscopic transport model, UrQMD, to account for hadronic final state interactions. We present first results for nuclear collisions of the FAIR/NICA energy scan program (Au+Au collisions, $\sqrt{s_{NN}}=4-11$ GeV). We address the directed flow of protons and pions as well as the proton rapidity distribution for two model EoS, one with a first order phase transition the other with a crossover type softening at high densities. The new simulation program has the unique feature that it can describe a hadron-to-quark matter transition which proceeds in the baryon stopping regime that is not accessible to previous simulation programs designed for higher energies.

preprint2016arXivOpen access
P. BatyukD. BlaschkeM. BleicherYu. B. IvanovIu. KarpenkoS. MertsM. NahrgangH. PetersenO. Rogachevsky
hep-phnucl-th
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P. BatyukD. BlaschkeM. BleicherYu. B. IvanovIu. KarpenkoS. MertsM. NahrgangH. PetersenO. Rogachevsky

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