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W2167171818 abstract "The symmetry energy at sub and supra-saturation densities has a great importance in understanding the exact nature of asymmetric nuclear matter as well as neutron star, but, it is poor known, especially at supra-saturation densities. We will demonstrate here that the neutron to proton ratios from different kind of fragments is able to determine the supra-saturation behavior of symmetry energy or not. For this purpose, a series of Sn isotopes are simulated at different incident energies using the Isospin Quantum Molecular Dynamics (IQMD) model with either a soft or a stiff symmetry energy for the present study. It is found that the single neutron to proton ratio from free nucleons as well as LCP's is sensitive towards the symmetry energy, incident energy as well as isospin asymmetry of the system. However, with the double neutron to proton ratio, it is true only for the free nucleons. It is possible to study the high density behavior of symmetry energy by using the neutron to proton ratio from free nucleons." @default.
W2167171818 created "2016-06-24" @default.
W2167171818 creator A5011515525 @default.
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W2167171818 date "2012-02-27" @default.
W2167171818 modified "2023-10-17" @default.
W2167171818 title "Sensitivity of neutron to proton ratio toward the high density behavior of the symmetry energy in heavy-ion collisions" @default.
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W2167171818 cites W1595529868 @default.
W2167171818 cites W1616592390 @default.
W2167171818 cites W1714613415 @default.
W2167171818 cites W1966873561 @default.
W2167171818 cites W1967077966 @default.
W2167171818 cites W1967165927 @default.
W2167171818 cites W1968826207 @default.
W2167171818 cites W1972509151 @default.
W2167171818 cites W1977691976 @default.
W2167171818 cites W1979787605 @default.
W2167171818 cites W1980643810 @default.
W2167171818 cites W1981433657 @default.
W2167171818 cites W1982276824 @default.
W2167171818 cites W1983110769 @default.
W2167171818 cites W1988197230 @default.
W2167171818 cites W1990747859 @default.
W2167171818 cites W1993907404 @default.
W2167171818 cites W2005202111 @default.
W2167171818 cites W2006807142 @default.
W2167171818 cites W2008929021 @default.
W2167171818 cites W2011956434 @default.
W2167171818 cites W2016646188 @default.
W2167171818 cites W2016975306 @default.
W2167171818 cites W2018680659 @default.
W2167171818 cites W2020541819 @default.
W2167171818 cites W2035673752 @default.
W2167171818 cites W2036698041 @default.
W2167171818 cites W2037805028 @default.
W2167171818 cites W2041452174 @default.
W2167171818 cites W2045242950 @default.
W2167171818 cites W2050734304 @default.
W2167171818 cites W2053768088 @default.
W2167171818 cites W2056515259 @default.
W2167171818 cites W2059382880 @default.
W2167171818 cites W2060836812 @default.
W2167171818 cites W2061792483 @default.
W2167171818 cites W2065183043 @default.
W2167171818 cites W2066581116 @default.
W2167171818 cites W2072528059 @default.
W2167171818 cites W2075376125 @default.
W2167171818 cites W2079136448 @default.
W2167171818 cites W2085783260 @default.
W2167171818 cites W2097359081 @default.
W2167171818 cites W2106558292 @default.
W2167171818 cites W2115347088 @default.
W2167171818 cites W2118129230 @default.
W2167171818 cites W2119734739 @default.
W2167171818 cites W2132046346 @default.
W2167171818 cites W2146020709 @default.
W2167171818 cites W2153430156 @default.
W2167171818 cites W2157588467 @default.
W2167171818 cites W2160230271 @default.
W2167171818 cites W2162076236 @default.
W2167171818 cites W2228360033 @default.
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W2167171818 cites W2951258045 @default.
W2167171818 cites W3103132753 @default.
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W2167171818 cites W3106007291 @default.
W2167171818 cites W3124057386 @default.
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W2167171818 doi "https://doi.org/10.1103/physrevc.85.024620" @default.
W2167171818 hasPublicationYear "2012" @default.
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