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Электронный каталог: Okada, K. - Influence of Transport Coefficients on Fission Dynamics in the Five-Dimensional Langevin Approach
Okada, K. - Influence of Transport Coefficients on Fission Dynamics in the Five-Dimensional Langevin Approach
Статья
Автор: Okada, K.
Physical Review C: Influence of Transport Coefficients on Fission Dynamics in the Five-Dimensional Langevin Approach
б.г.
ISBN отсутствует
Автор: Okada, K.
Physical Review C: Influence of Transport Coefficients on Fission Dynamics in the Five-Dimensional Langevin Approach
б.г.
ISBN отсутствует
На полку
Статья
Okada, K.
Influence of Transport Coefficients on Fission Dynamics in the Five-Dimensional Langevin Approach / K.Okada, T.Wada, N.Carjan. – Text : electronic // Physical Review C. – 2025. – Vol. 112, No. 3. – P. 034613. – URL: https://doi.org/10.1103/dkjs-5fty.
Transport coefficients in the Langevin equation are essential for the dynamical analysis of nuclear fission. Two primary methods for calculating these coefficients exist: macroscopic and microscopic. Here we study the fission of *2*3*6U using a five-dimensional Langevin equation with a Cassini shape parametrization to examine how the choice of transport coefficients affects the distributions of fission fragment mass, quadrupole (𝛽&sub(2)), octupole (𝛽&sub(3)), and total kinetic energy. The results indicate that microscopic transport coefficients generate fragments with a broader range of deformation, which improves the agreement with experimental mass distributions for asymmetric fission modes. This improvement is found to be primarily due to the microscopic inertia tensor. To assess the effectiveness of the five-dimensional parametrization, the results are compared with those from lower-dimensional calculations. The Cassini parameter set {𝛼,𝛼&sub(1),𝛼&sub(3),𝛼&sub(4),𝛼&sub(6)} is shown to properly describe both mass asymmetry and superlong symmetric fission. Furthermore, a rare type of hot fission is observed for heavy fragment masses of 134±2 , characterized by a superelongated, neck-shaped light fragment.
ОИЯИ = ОИЯИ (JINR)2025
Спец.(статьи,препринты) = С 341 - Атомные ядра
Бюллетени = 48/025
Okada, K.
Influence of Transport Coefficients on Fission Dynamics in the Five-Dimensional Langevin Approach / K.Okada, T.Wada, N.Carjan. – Text : electronic // Physical Review C. – 2025. – Vol. 112, No. 3. – P. 034613. – URL: https://doi.org/10.1103/dkjs-5fty.
Transport coefficients in the Langevin equation are essential for the dynamical analysis of nuclear fission. Two primary methods for calculating these coefficients exist: macroscopic and microscopic. Here we study the fission of *2*3*6U using a five-dimensional Langevin equation with a Cassini shape parametrization to examine how the choice of transport coefficients affects the distributions of fission fragment mass, quadrupole (𝛽&sub(2)), octupole (𝛽&sub(3)), and total kinetic energy. The results indicate that microscopic transport coefficients generate fragments with a broader range of deformation, which improves the agreement with experimental mass distributions for asymmetric fission modes. This improvement is found to be primarily due to the microscopic inertia tensor. To assess the effectiveness of the five-dimensional parametrization, the results are compared with those from lower-dimensional calculations. The Cassini parameter set {𝛼,𝛼&sub(1),𝛼&sub(3),𝛼&sub(4),𝛼&sub(6)} is shown to properly describe both mass asymmetry and superlong symmetric fission. Furthermore, a rare type of hot fission is observed for heavy fragment masses of 134±2 , characterized by a superelongated, neck-shaped light fragment.
ОИЯИ = ОИЯИ (JINR)2025
Спец.(статьи,препринты) = С 341 - Атомные ядра
Бюллетени = 48/025
