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Subthreshold pion production within a transport description of central Au+Au collisions
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Mapping out the equation of state (EOS) of nuclear matter is a long standing problem in nuclear physics. Recent emphasis is onto the density dependence of the symmetry energy, with experiments needing dedicated symmetry-energy observables. Towards the latter goal, we employ pBUU transport model to simulate pion production in heavy ion collision (HIC). We find that the net pion yield tests the momentum dependence of nuclear mean field (MF). In exploring the sensitivity of pion observables to the symmetry energy at higher than normal densities, we find that our calculations of pion ratios contradict, at some level, predictions from both IBUU and ImIQMD models. We propose to employ the pion ratio in the high-energy tail of spectra in future experiments, to distinguish between different variants of high-density symmetry energy.
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Angular momentum conservation and pion production in intermediate-energy heavy-ion collisions
Enforcing angular momentum conservation in an IBUU transport model suppresses Δ and pion absorption, raising total pion multiplicity while lowering the charged-pion yield ratio.
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