Add to ORKGNuclear structure calculations predict the existence of super-heavy elements (SHE) that are tentatively synthesized through heavy-ion collisions. A complete description of the reaction to synthesize Super-Heavy Elements is necessary to bridge these predictions with the experimental results on the fission time and residue cross sections. In this contibution, we will present the constraints that can be given on the shell correction energy from experimental data and the developments that are needed for the dynamical models
In this article we present a new experimental approach for production of heavy and superheavy elemen...
It is expected that the cross section for super-heavy nuclei production of Z > 118 is dropping into ...
Background: The formation of superheavy elements by fusion of two massive nuclei is severely inhibit...
CERN-Proceedings-2010-001 available at http://cdsweb.cern.ch/record/1233497International audienceNuc...
The conference proceedings will be published by World Scientific PublishingNuclear shell model calcu...
International audienceRecent experiments performed at GANIL with a crystal blocking technique have s...
International audienceFusion process is shown to firstly form largely deformed mono-nucleus and then...
International audienceOne of the biggest challenges in nuclear physics is to synthesize new super-he...
Synthesis of superheavy elements becomes more and more difficult experimentally as an atomic number ...
Since the discovery of Deformed Superheavy Nuclei (1983 - 85) a bridge connects the island of SHE to...
We investigate the formation and the decay of heavy systems which are above the fission barrier. By ...
Superheavy elements can only be created in the laboratory by the fusion of two massive nuclei. Mass-...
In this article we present a new experimental approach for production of heavy and superheavy elemen...
It is expected that the cross section for super-heavy nuclei production of Z > 118 is dropping into ...
Background: The formation of superheavy elements by fusion of two massive nuclei is severely inhibit...
CERN-Proceedings-2010-001 available at http://cdsweb.cern.ch/record/1233497International audienceNuc...
The conference proceedings will be published by World Scientific PublishingNuclear shell model calcu...
International audienceRecent experiments performed at GANIL with a crystal blocking technique have s...
International audienceFusion process is shown to firstly form largely deformed mono-nucleus and then...
International audienceOne of the biggest challenges in nuclear physics is to synthesize new super-he...
Synthesis of superheavy elements becomes more and more difficult experimentally as an atomic number ...
Since the discovery of Deformed Superheavy Nuclei (1983 - 85) a bridge connects the island of SHE to...
We investigate the formation and the decay of heavy systems which are above the fission barrier. By ...
Superheavy elements can only be created in the laboratory by the fusion of two massive nuclei. Mass-...
In this article we present a new experimental approach for production of heavy and superheavy elemen...
It is expected that the cross section for super-heavy nuclei production of Z > 118 is dropping into ...
Background: The formation of superheavy elements by fusion of two massive nuclei is severely inhibit...