We present numerical algorithm which describes the decay of hot, rotating compound nuclei. This algorithm treats the fission dynamics in conjunction with light-particle (n, p, a) evaporation. The detailed results are given for the n%Pt nucleus at the excitation energy of 100 MeV
Potential energy is important ingredient in static and dynamical investigations of a nuclear fission...
The 48Ti on 40Ca reactions have been studied at 300 and 600 MeV focusing on the fusion-evaporation (...
This thesis work has been developed in the framework of a new experimental campaign, proposed by the...
We present a comparison of our model treating fission dynamics in conjunction with light-particle ( ...
A practical computing algorithm has been developed for calculating the macroscopic energy of nuclei....
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
It is shown that a consistent incorporation of thermal excitation of surface oscillation modes into ...
This work was supported by National Science Foundation Grants PHY 76-84033A01, PHY 78-22774, and Ind...
Evaporation-like emission of light particles (n, H, He, . . .) has been observed for many nuclear re...
Potential energy is important ingredient in static and dynamical investigations of a nuclear fission...
The 48Ti on 40Ca reactions have been studied at 300 and 600 MeV focusing on the fusion-evaporation (...
This thesis work has been developed in the framework of a new experimental campaign, proposed by the...
We present a comparison of our model treating fission dynamics in conjunction with light-particle ( ...
A practical computing algorithm has been developed for calculating the macroscopic energy of nuclei....
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
An extension of the statistical model for the study of very excited nuclei is presented. The tempera...
It is shown that a consistent incorporation of thermal excitation of surface oscillation modes into ...
This work was supported by National Science Foundation Grants PHY 76-84033A01, PHY 78-22774, and Ind...
Evaporation-like emission of light particles (n, H, He, . . .) has been observed for many nuclear re...
Potential energy is important ingredient in static and dynamical investigations of a nuclear fission...
The 48Ti on 40Ca reactions have been studied at 300 and 600 MeV focusing on the fusion-evaporation (...
This thesis work has been developed in the framework of a new experimental campaign, proposed by the...
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