Add to ORKGWe compare a proximity-type potential for two interacting nuclei with the double-folding method. Both spherical and deformed systems are considered. Special "orientation windows" are found for two deformed nuclei giving rise to nuclear cohesion. If the same nucleon-nucleon interaction is utilized, the proximity and the double-folding potentials agree fairly well for a spherical + deformed system. However, deviations are found in the case of two deformed nuclei
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
Abstract—It is shown that the height of the barrier and its position, as well the depth of the captu...
The real part of the optical potential for heavy ion elastic scattering is obtained by double foldin...
The proximity potential is discussed for the inelastic scattering of a spherical nucleus on a deform...
AbstractA method is presented to calculate the exact HI Coulomb potential between spherical and defo...
Half-lives of α decay of even-even nuclei calculated by using fourteen different versions of proximi...
The usual treatment of the deformed optical model for analysis of heavy ion induced inelastic scatte...
The simple approach for the evaluation of the interaction potential between two deformed axial-symme...
The double-folding model with an M3Y effective nucleon-nucleon (NN) interaction was applied to obtai...
Two heavy ion interaction potentials have been computed using the same nuclear force. One has been o...
A double-folding method is used to calculate the nuclear and Coulomb interaction between two deforme...
The universal function of proximity potential between α and nuclei is systematically studied from th...
This is a new version of the DFMDEF code published earlier. The new version is designed to obtain th...
Atomic nuclei are complex strongly interacting systems and their exact theoretical description is a ...
This is a new version of the DFMSPH (DFMSPH14) code published earlier. The new version is designed t...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
Abstract—It is shown that the height of the barrier and its position, as well the depth of the captu...
The real part of the optical potential for heavy ion elastic scattering is obtained by double foldin...
The proximity potential is discussed for the inelastic scattering of a spherical nucleus on a deform...
AbstractA method is presented to calculate the exact HI Coulomb potential between spherical and defo...
Half-lives of α decay of even-even nuclei calculated by using fourteen different versions of proximi...
The usual treatment of the deformed optical model for analysis of heavy ion induced inelastic scatte...
The simple approach for the evaluation of the interaction potential between two deformed axial-symme...
The double-folding model with an M3Y effective nucleon-nucleon (NN) interaction was applied to obtai...
Two heavy ion interaction potentials have been computed using the same nuclear force. One has been o...
A double-folding method is used to calculate the nuclear and Coulomb interaction between two deforme...
The universal function of proximity potential between α and nuclei is systematically studied from th...
This is a new version of the DFMDEF code published earlier. The new version is designed to obtain th...
Atomic nuclei are complex strongly interacting systems and their exact theoretical description is a ...
This is a new version of the DFMSPH (DFMSPH14) code published earlier. The new version is designed t...
This program has been imported from the CPC Program Library held at Queen's University Belfast (1969...
Abstract—It is shown that the height of the barrier and its position, as well the depth of the captu...
The real part of the optical potential for heavy ion elastic scattering is obtained by double foldin...