High Density Behaviour of Nuclear Symmetry Energy and High Energy Heavy-Ion Collisions

Abstract

High energy heavy-ion collisions are proposed as a novel means to obtain information about the high density ( HD) behaviour of nuclear symmetry energy. Within an isospin-dependent hadronic transport model using phenomenological equations of state ( EOS) for dense neutron-rich matter, it is shown that the isospin asymmetry of the HD nuclear matter formed in high energy heavy-ion collisions is determined mainly by the HD behaviour of nuclear symmetry energy. Experimental signatures in several sensitive probes, i.e., π- to π+ ratio, transverse collective flow and its excitation function as well as neutron-proton differential flow, are investigated. A precursor of the possible isospin separation instability in dense neutron-rich matter is predicted to appear as the local minima in the excitation functions of the transverse flow parameter for both neutrons and protons above the pion production threshold. Because of its qualitative nature unlike other quantitative observables, this precursor can be used as a unique signature of the isospin dependence of the nuclear EOS. Measurements of these observables will provide the first terrestrial data to constrain stringently the HD behaviour of nuclear symmetry energy and thus also the EOS of dense neutron-rich matter. Implications of our findings to neutron star studies are also discussed.

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