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2024年10月30日

Isospin Effect in Multifragmentation Process of Heavy Ion Collisions at Intermediate Energy

  • From the simulation of intermediate energy heavy ion collisions by using the isospin dependent quantum molecular dynamics (IQMD), we have investigated the isospin effects on the multifragmentation process in intermediate energy heavy ion collisions: reverse reactions 120Xe + 40Ca, 120Cd+ 40Ar, 76Kr + 40Ca and 76Zn + 40Ar. To describe isospin effects appropriately, QMD was modified properly. The density dependent mean field contains correct isospin term including symmetry energy and Coulomb potential. The in-medium n-n cross section is different for neuron-neutron (proton-proton) and neutron-proton collisions. And finally Pauli blocking was counted by distinguishing neutrons and protons. In addition, the initial condition of the ground state of two colliding nuclei also contains isospin information. The calculated results show a prominent isospin effects for the multifragmentation process among the colliding systems with different neutron or proton excess. The correlation between Nimf and Nc for neutron-deficient systems are always larger than those for neutron-rich systems in intermediate energy region for all of colliding systems studied here, and the mechanism causing the above isospin effects is mainly due to the fact that the mean n-n cross section for the neutron-rich system is smaller than that of neutron-deficient system. Thus one can combine experimental studies and theoretical simulations to investigate the isospin effect of multi fragmentation Process and to extract the information on isospin dependence of in-medium n-n cross section from the correlation between Nimf and Nc.
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  • [1] LI BaoAn, Ko CheMing et al. Inter. Jour. Mod. Phys., 1998, E: 147–229 2 Colonna M, Ditoro M et al. Phys. Rev., 1998, C57: 1410 3 CHEN LieWei, ZHANG FengShow et al. Phys. Rev., 1998, C58:2283 4 LI BaoAn, Ko CheMing et al. Phys. Rev. Lett., 1997, 78: 1644 5 LIU JianYe, GE YuCheng, YANG FuZhong. Z. Phys., 1993, A345: 187 6 LIU JianYe, ZHANG ShaoGuang. Z. Phys., 1994, A354:31 7 LIU Hang, LIU JianYe. Z. Phys., 1996, A354:311 8 Aichelin J, Peilert G et al. Phys. Rev., 1988, C37:2451 9 Peilert G, H Stocher et al. Phys. Rev., 1989, C39:1402 10 Klakor D, Welke G, Baur W. Phys. Rev., 1993, C48:1982. 11 Alkahzov G et al. Nucl. Phys. 1977, A280:365
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ZHAO Qiang, LIU JianYe, ZHANG FengShou, WANG ShunJin, ZUO Wei and CHEN LieWen. Isospin Effect in Multifragmentation Process of Heavy Ion Collisions at Intermediate Energy[J]. Chinese Physics C, 2000, 24(11): 1024-1029.
ZHAO Qiang, LIU JianYe, ZHANG FengShou, WANG ShunJin, ZUO Wei and CHEN LieWen. Isospin Effect in Multifragmentation Process of Heavy Ion Collisions at Intermediate Energy[J]. Chinese Physics C, 2000, 24(11): 1024-1029. shu
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Received: 1999-09-07
Revised: 1900-01-01
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Isospin Effect in Multifragmentation Process of Heavy Ion Collisions at Intermediate Energy

    Corresponding author: ZHAO Qiang,
  • Center of Theoretical Nuclear Physics, National Laboratory of Heavy Ion Accelerator, Lanzhou 730000, China2 Institute of Modern Physics, The Chiness Academy of Sciences, Lanzhou 730000, China3 Institute of Modern Physics, South West Jiaotong University, Chengdu 610031, China

Abstract: From the simulation of intermediate energy heavy ion collisions by using the isospin dependent quantum molecular dynamics (IQMD), we have investigated the isospin effects on the multifragmentation process in intermediate energy heavy ion collisions: reverse reactions 120Xe + 40Ca, 120Cd+ 40Ar, 76Kr + 40Ca and 76Zn + 40Ar. To describe isospin effects appropriately, QMD was modified properly. The density dependent mean field contains correct isospin term including symmetry energy and Coulomb potential. The in-medium n-n cross section is different for neuron-neutron (proton-proton) and neutron-proton collisions. And finally Pauli blocking was counted by distinguishing neutrons and protons. In addition, the initial condition of the ground state of two colliding nuclei also contains isospin information. The calculated results show a prominent isospin effects for the multifragmentation process among the colliding systems with different neutron or proton excess. The correlation between Nimf and Nc for neutron-deficient systems are always larger than those for neutron-rich systems in intermediate energy region for all of colliding systems studied here, and the mechanism causing the above isospin effects is mainly due to the fact that the mean n-n cross section for the neutron-rich system is smaller than that of neutron-deficient system. Thus one can combine experimental studies and theoretical simulations to investigate the isospin effect of multi fragmentation Process and to extract the information on isospin dependence of in-medium n-n cross section from the correlation between Nimf and Nc.

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