02 آذر 1403
حسين فالي نژاد

حسین فالی نژاد

مرتبه علمی: دانشیار
نشانی: دانشکده علوم و فناوری نانو و زیستی - گروه فیزیک
تحصیلات: دکترای تخصصی / فیزیک
تلفن: 07136487599
دانشکده: دانشکده علوم و فناوری نانو و زیستی

مشخصات پژوهش

عنوان Simulation of the fission process of the excited compound nuclei 210Rn and 215Fr produced in fusion reactions within the framework of the modified statistical model
نوع پژوهش مقالات در نشریات
کلیدواژه‌ها
Fission, fusion-fission reaction, anisotropy of fission fragments angular distribution
مجله PHYSICAL REVIEW C
شناسه DOI https://doi.org/10.1103/PhysRevC.105.044604
پژوهشگران هادی اسلامی زاده (نفر اول) ، حسین فالی نژاد (نفر دوم)

چکیده

In the framework of the modified statistical model there have been simulated fission process of the excited compound nuclei 210Rn and 215Fr produced in16O+194Pt and 19F+196Pt reactions and calculated the evaporation residue cross section, the fission cross section, the fission probability, the average prescission neutron multiplicity, the mean fission time, and the anisotropy of fission fragments angular distribution as a function of excitation energy. The classical collective motion of the excited compound nuclei about the ground state, the temperature dependence of the location, the height of fission transition points, and the projection of the total spin of the compound nucleus onto the symmetry axis K have been considered in the statistical calculations. A constant nuclear dissipation was applied in the statistical calculations. In the statistical calculations, the temperature coefficient of the effective potential k and the scaling factor of the fission-barrier height rs were considered as a free parameter and their magnitudes inferred by fitting measured data on the evaporation residue cross section and the fission cross section for the excited compound nuclei 210Rn and 215 Fr. It was shown that the results of calculations are in good agreement with the experimental data by using appropriate values for these parameters equal to k=0.0160±0.0050 MeV−2 and rs=1.0030±0.0020 for 210Rn and k=0.0065±0.0040 MeV−2 and rs=1.0040±0.0015 for 215Fr. Furthermore, by using appropriate values of parameters k and rs have been calculated the average prescission neutron multiplicity, the fission probability, the mean fission time, and the anisotropy of fission fragments angular distribution for the nuclei 210Rn and 215Fr. Comparison of the theoretical data with the experimental data were shown that the modified statistical model is well able to reproduce different experimental data. Although, at high excitation energies the results of calculations for the anisotropy of fission f