The reactions induced by intermediate energy heavy ions are investigated.The evap-orated fragment multiplicity and excitation energy distributions are calculated and comparedwith the experimental data of the reaction ...The reactions induced by intermediate energy heavy ions are investigated.The evap-orated fragment multiplicity and excitation energy distributions are calculated and comparedwith the experimental data of the reaction Ar+Ag at 50 and 70 MeV/u.展开更多
The final-state energy spectrum in the electromagnetic dissociation is calculated by asimple method.The final-state energy curves obtained from the calculation are in agreementwith the experimental data of <sup>...The final-state energy spectrum in the electromagnetic dissociation is calculated by asimple method.The final-state energy curves obtained from the calculation are in agreementwith the experimental data of <sup>28</sup>Si into p+<sup>27</sup>Al at an energy of 14.6 GeV/u.展开更多
基金The Project Supported by Shanxi Provincial Foundation of Leading Man in Science,Shanxi Provincial Foundation of Scholarly Exchange and China National Education Committee Foundation of Scholarly Exchange
文摘The reactions induced by intermediate energy heavy ions are investigated.The evap-orated fragment multiplicity and excitation energy distributions are calculated and comparedwith the experimental data of the reaction Ar+Ag at 50 and 70 MeV/u.
基金The project supported by Shanxi Provincial Foundation of Leading Man in ScienceShanxi Provincial Foundation of Scholarly ExchangeChina National Education Committee Foundation of Scholarly Exchange
文摘The final-state energy spectrum in the electromagnetic dissociation is calculated by asimple method.The final-state energy curves obtained from the calculation are in agreementwith the experimental data of <sup>28</sup>Si into p+<sup>27</sup>Al at an energy of 14.6 GeV/u.
