Dynamical description of the moments of the energy distribution of fission fragments and scission of a fissile nucleus

“…One of the most promising tools for theoretical investigation of the nuclear dissipation is a dynamical model of fission based on the multi-dimensional Langevin equations [1] or recently developed Metropolis walk treatment [2,3]. During the last decade we performed investigations of different properties of fissioning nuclei in three-dimensional (3D) Langevin model [4][5][6][7] and a good description of experimental data was obtained [6,[8][9][10][11]. We have recently proposed a four-dimensional (4D) dynamical Langevin model featuring three shape and an orientation (K-mode, or tilting coordinate) degrees of freedom as collective coordinates [12][13][14].…”

Investigation of dissipation in the tilting degree of freedom from four-dimensional Langevin dynamics of heavy-ion-induced fission

“…One of the most promising tools for theoretical investigation of the nuclear dissipation is a dynamical model of fission based on the multi-dimensional Langevin equations [1] or recently developed Metropolis walk treatment [2,3]. During the last decade we performed investigations of different properties of fissioning nuclei in three-dimensional (3D) Langevin model [4][5][6][7] and a good description of experimental data was obtained [6,[8][9][10][11]. We have recently proposed a four-dimensional (4D) dynamical Langevin model featuring three shape and an orientation (K-mode, or tilting coordinate) degrees of freedom as collective coordinates [12][13][14].…”

Investigation of dissipation in the tilting degree of freedom from four-dimensional Langevin dynamics of heavy-ion-induced fission

Incorporation of a tilting coordinate into the multidimensional Langevin dynamics of heavy-ion-induced fission: Analysis of experimental data from fusion-fission reactions