We describe Monte Carlo calculations which use as input the double differential multiplicities of the particles emitted in small time intervals during the thermalization of excited nuclei. These multiplicities are evaluated by solving a set of coupled Boltzmann Master equations. The comparison of the experimental and the predicted exclusive spectra of the nucleons emitted in symmetric and asymmetric complete fusion heavy ion reactions at incident energies of a few tens of MeV/amu shows that the calculations reproduce accurately the data.
Monte Carlo calculations of heavy ion cross-sections based on the Boltzmann Master equation theory / M. Cavinato, E. Fabrici, E. Gadioli, E. Gadioli Erba, G. Riva. - In: NUCLEAR PHYSICS. A. - ISSN 0375-9474. - 679:3-4(2001), pp. 753-764.
Monte Carlo calculations of heavy ion cross-sections based on the Boltzmann Master equation theory
M. CavinatoPrimo
;
2001
Abstract
We describe Monte Carlo calculations which use as input the double differential multiplicities of the particles emitted in small time intervals during the thermalization of excited nuclei. These multiplicities are evaluated by solving a set of coupled Boltzmann Master equations. The comparison of the experimental and the predicted exclusive spectra of the nucleons emitted in symmetric and asymmetric complete fusion heavy ion reactions at incident energies of a few tens of MeV/amu shows that the calculations reproduce accurately the data.
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