Study of entropy in intermediate-energy heavy ion collisions

  • Using the isospin-dependent quantum molecular dynamics model, the entropy of an intermediate-energy heavy ion collision system after the reaction and the number of deuteronlike and protonlike particles produced in the collision is calculated. In the collision, different parameters are used and the mass number used here is from 40 to 93 at incident energy from 150 MeV to 1050 MeV. We build a new model in which the density distribution of the reaction product is used to calculate the size of the entropy. The entropy calculated with this model is in good agreement with experimental values. Our data reveals that with the increase of the neutron-proton ratio and impact parameter, the entropy of the reaction system decreases, and it increases with the increase of system mass and reaction energy.
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Xiao-Ji Zhang, Wen-Jun Guo, Xian-Jie Li and Kuo Wang. Study of entropy in intermediate-energy heavy ion collisions[J]. Chinese Physics C, 2016, 40(3): 034103. doi: 10.1088/1674-1137/40/3/034103
Xiao-Ji Zhang, Wen-Jun Guo, Xian-Jie Li and Kuo Wang. Study of entropy in intermediate-energy heavy ion collisions[J]. Chinese Physics C, 2016, 40(3): 034103.  doi: 10.1088/1674-1137/40/3/034103 shu
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Received: 2015-03-27
Revised: 2015-10-22
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Study of entropy in intermediate-energy heavy ion collisions

    Corresponding author: Wen-Jun Guo,
  • 1. University of Shanghai for Science and Technology, Shanghai 200093, China

Abstract: Using the isospin-dependent quantum molecular dynamics model, the entropy of an intermediate-energy heavy ion collision system after the reaction and the number of deuteronlike and protonlike particles produced in the collision is calculated. In the collision, different parameters are used and the mass number used here is from 40 to 93 at incident energy from 150 MeV to 1050 MeV. We build a new model in which the density distribution of the reaction product is used to calculate the size of the entropy. The entropy calculated with this model is in good agreement with experimental values. Our data reveals that with the increase of the neutron-proton ratio and impact parameter, the entropy of the reaction system decreases, and it increases with the increase of system mass and reaction energy.

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