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arxiv: 2208.12091 · v2 · pith:GSEJEAH2new · submitted 2022-08-25 · ⚛️ nucl-th · hep-ph

The high-density equation of state in heavy-ion collisions: Constraints from proton flow

classification ⚛️ nucl-th hep-ph
keywords statedensityequationflowphasecollisionsdifferentexperimental
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A set of different equations of state is implemented in the molecular dynamics part of a non-equilibrium transport simulation (UrQMD) of heavy-ion collisions. It is shown how different flow observables are affected by the density dependence of the equation of state. In particular, the effects of a phase transition at high density are explored, including an expected reduction in mean $m_T$. We also show that an increase in $v_2$ is characteristic for a strong softening of the equation of state. The phase transitions with a low coexistence density, $n_{\mathrm{CE}}<4 n_0$, show a distinct minimum in the slope of the directed flow as a function of the beam energy, which would be a clear experimental signal. By comparing our results with experimental data, we can exclude any strong phase transition at densities below $4n_0$.

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  1. Freeze-out model of light nuclei formation in heavy-ion collision transport

    nucl-th 2026-05 unverdicted novelty 6.0

    A hybrid freeze-out model combining transport dynamics and thermal cluster production is proposed for light nuclei in intermediate-energy heavy-ion collisions.