992 research outputs found

    Probing nuclear bubble configuration by the π−/π+\pi^{-}/\pi^{+} ratio in heavy-ion collisions

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    It is theoretically and experimentally argued that there may exist bubble or toroid-shaped configurations in some nucleus systems. Based on the nuclear transport model, it is shown that compared with the collision of normal nuclei, there is a depletion of central density of compression with bubble configurations in projectile and target nuclei. This depletion of central compression density may affect some observables in heavy-ion collisions.Comment: 5 pages, 6 figures, accepted by European Physical Journal

    Constraining nucleon high momentum in nuclei

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    Recent studies at Jefferson Lab show that there are a certain proportion of nucleons in nuclei have momenta greater than the so-called nuclear Fermi momentum pFp_{F}. Based on the transport model of nucleus-nucleus collisions at intermediate energies, nucleon high momentum caused by the neutron-proton short-range correlations in nuclei is constrained by comparing with π\pi and photon experimental data and considering some uncertainties. The high momentum cutoff value pmaxp_{max} ≤\leq 2pFp_{F} is obtained.Comment: 6 pages, 4 figures, to appear in PL

    Probing proton transition momentum in neutron-rich matter

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    Around the nuclear Fermi momentum, there is a transition of nucleon momentum distribution n(k) in nuclear matter, i.e., from a constant to the 1/k41/k^{4} nucleon momentum distribution. While nowadays the transition momentum of minority in asymmetric matter is rarely studied and thus undetermined. In the framework of the IBUU transport model, proton transition momentum in nuclei is first studied. It is found that the transition momentum of proton is sensitive to the π−/π+\pi^{-}/\pi^{+} ratio as well as the energetic photon production in neutron-rich nuclear reaction. This result may push the study of how the proton momentum is distributed in neutron-rich matter forward and help us to better understand the dynamics of both neutron-rich nuclear reactions and neutron stars.Comment: 5 pages, 5 figure

    Effects of the high-momentum tail of nucleon momentum distribution on the isospin-sensitive observables

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    Based on the Isospin-dependent transport model Boltzmann-Uehling-Uhlenbeck (IBUU), effects of the high momentum tail (HMT) of nucleon momentum distribution in colliding nuclei on some isospin-sensitive observables are studied in the semi-central 197Au+197Au^{197}\rm {Au}+^{197}\rm {Au} reactions at incident beam energy of 400 MeV/nucleon. It is found that the nucleon transverse flow, the difference of neutron and proton transverse flows, the nucleon elliptic flow and free neutron to proton ratio are all less sensitive to the HMT, while the isospin-sensitive nucleon elliptic flow difference is clearly affected by the HMT. Except at very high kinetic energies, the kinetic energy distributions of π−\pi^{-}, π+\pi^{+} and charged pion ratio π−/π+\pi^{-}/\pi^{+} are all sensitive to the HMT.Comment: 6 pages, 6 figures, to appear in Eur. Phys. J.
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