The formation of a compound nucleus in different projectile and target combinations is a powerful method for investigating the fusion process. Recently, the dominance of quasi-fission over fusion-fission has been inferred for 34S+208Pb in comparison to 3
The reaction S-34 + W-186 at E-lab=160 MeV was investigated with the aim of diving into the features...
The production of superheavy elements through the fusion of two heavy nuclei is severely hindered by...
The scope of this review is to summarize the main advancements in the search of signatures of the co...
The formation of a compound nucleus in different projectile and target combinations is a powerful me...
Superheavy elements are primarily formed through heavy ion fusion reactions. Formation of a fully eq...
Background: The fusion-evaporation reaction at energies around the Coulomb barrier is presently the ...
Background: In heavy-ion-induced reactions the mechanism leading to the formation of the compound nu...
The reaction 34 S+ 186 W at E lab =160 MeV was investigated with the aim of diving into the features...
The influence of the nuclear structure of projectile and target nuclei on the ca...
The decrease of the evaporation residue yields in reactions with massive nuclei is explained by an i...
Background: The formation of superheavy nuclei in fusion reactions is suppressed by a competing quas...
Background: The formation of superheavy nuclei in fusion reactions is suppressed by a competing quas...
Background: All elements above atomic number 113 have been synthesized using hot fusion reactions wi...
The synthesis of superheavy elements stimulates the effort to study the peculiarities of the complet...
By using the dinuclear system (DNS) model we determine the capture of reactants at the first stage o...
The reaction S-34 + W-186 at E-lab=160 MeV was investigated with the aim of diving into the features...
The production of superheavy elements through the fusion of two heavy nuclei is severely hindered by...
The scope of this review is to summarize the main advancements in the search of signatures of the co...
The formation of a compound nucleus in different projectile and target combinations is a powerful me...
Superheavy elements are primarily formed through heavy ion fusion reactions. Formation of a fully eq...
Background: The fusion-evaporation reaction at energies around the Coulomb barrier is presently the ...
Background: In heavy-ion-induced reactions the mechanism leading to the formation of the compound nu...
The reaction 34 S+ 186 W at E lab =160 MeV was investigated with the aim of diving into the features...
The influence of the nuclear structure of projectile and target nuclei on the ca...
The decrease of the evaporation residue yields in reactions with massive nuclei is explained by an i...
Background: The formation of superheavy nuclei in fusion reactions is suppressed by a competing quas...
Background: The formation of superheavy nuclei in fusion reactions is suppressed by a competing quas...
Background: All elements above atomic number 113 have been synthesized using hot fusion reactions wi...
The synthesis of superheavy elements stimulates the effort to study the peculiarities of the complet...
By using the dinuclear system (DNS) model we determine the capture of reactants at the first stage o...
The reaction S-34 + W-186 at E-lab=160 MeV was investigated with the aim of diving into the features...
The production of superheavy elements through the fusion of two heavy nuclei is severely hindered by...
The scope of this review is to summarize the main advancements in the search of signatures of the co...
DOI
Add to ORKG