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Particle production and equilibrium properties within a new hadron transport approach for heavy-ion collisions

Janus WeilFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, GermanyVinzent SteinbergFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, GermanyJan StaudenmaierFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, GermanyLong-Gang PangFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, GermanyDmytro OliinychenkoBogolyubov Institute for Theoretical Physics, 14-b, Metrolohichna str., 03680 Kiev, UkraineJustin MohsFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, GermanyM. KretzFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, GermanyT. KehrenbergFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, GermanyA. GoldschmidtDepartment of Physics, The Ohio State University, Columbus, Ohio 43210, USABjørn BäuchleFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, GermanyJussi AuvinenDepartment of Physics, Duke University, Durham, North Carolina 27708-0305, USAMaximilian AttemsDepartament de Física Quàntica i Astrofísica & Institut de Ciències del Cosmos (ICC), Universitat de Barcelona, Martí i Franquès 1, 08028 Barcelona, SpainHannah PetersenFrankfurt Institute for Advanced Studies, Ruth-Moufang-Strasse 1, 60438 Frankfurt am Main, Germany
2016en
ABI

Аннотация

The microscopic description of heavy-ion reactions at low beam energies is achieved within hadronic transport approaches. In this article a new approach called ``Simulating Many Accelerated Strongly interacting Hadrons'' (SMASH) is introduced and applied to study the production of nonstrange particles in heavy-ion reactions at ${E}_{\mathrm{kin}}=0.4A--2A$ GeV. First, the model is described including details about the collision criterion, the initial conditions and the resonance formation and decays. To validate the approach, equilibrium properties such as detailed balance are presented and the results are compared to experimental data for elementary cross sections. Finally results for pion and proton production in $\text{C}+\text{C}$ and $\text{Au}+\text{Au}$ collisions is confronted with data from the high-acceptance dielectron spectrometer (HADES) and FOPI. Predictions for particle production in $\ensuremath{\pi}+A$ collisions are made.

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