Add to ORKGWe investigate ground-state properties of the superheavy nucleus with N = 184 and Z = 114, (298)114, using conventional relativistic mean-field theory and density-dependent mean-field theory, which reproduces Dirac-Brueckner calculations in nuclear matter. Our calculations provide support for N = 184 and Z = 114 being magic numbers. Density-dependent mean-field theory does not predict 298 114 to be stable against beta decay.</p
The results of extensive microscopic Relativistic Mean Field (RMF) calculations for the nuclei appea...
We study the extrapolation of nuclear shell structure to the region of superheavy nuclei in self-con...
We investigate the structure of the potential energy surfaces of the superheavy nuclei 258158Fm100, ...
We investigate ground-state properties of the superheavy nucleus with N = 184 and Z = 114, (298)114,...
We have carried out a study of superheavy nuclei in the framework of the relativistic mean-field the...
The shell structure of superheavy nuclei is investigated within various parametrizations of relativi...
The results of extensive microscopic relativistic mean field (RMF) calculations for the nuclei appea...
We have carried out a study of superheavy nuclei in the framework of the Relativistic Mean-Field the...
International audienceThe occurrence of spherical shell closures in the superheavy nuclei region is ...
Superheavy Elements (SHE) up to Z = 118 have been produced and studied. The Relativistic Mean Field ...
The ground–state properties of superheavy nuclei are investigated within various parametrisations of...
International audienceThe occurrence of the spherical shell closures in superheavy nuclear systems i...
The ground-state properties of Hs nuclei are studied in the framework of the relativistic meanfield ...
2 figures, 1 table, and 5 pagesWe have explored the occurrence of the spherical shell closures for s...
In this paper, we analyze the structural properties of Z = 132 and Z = 138 superheavy nuclei within ...
The results of extensive microscopic Relativistic Mean Field (RMF) calculations for the nuclei appea...
We study the extrapolation of nuclear shell structure to the region of superheavy nuclei in self-con...
We investigate the structure of the potential energy surfaces of the superheavy nuclei 258158Fm100, ...
We investigate ground-state properties of the superheavy nucleus with N = 184 and Z = 114, (298)114,...
We have carried out a study of superheavy nuclei in the framework of the relativistic mean-field the...
The shell structure of superheavy nuclei is investigated within various parametrizations of relativi...
The results of extensive microscopic relativistic mean field (RMF) calculations for the nuclei appea...
We have carried out a study of superheavy nuclei in the framework of the Relativistic Mean-Field the...
International audienceThe occurrence of spherical shell closures in the superheavy nuclei region is ...
Superheavy Elements (SHE) up to Z = 118 have been produced and studied. The Relativistic Mean Field ...
The ground–state properties of superheavy nuclei are investigated within various parametrisations of...
International audienceThe occurrence of the spherical shell closures in superheavy nuclear systems i...
The ground-state properties of Hs nuclei are studied in the framework of the relativistic meanfield ...
2 figures, 1 table, and 5 pagesWe have explored the occurrence of the spherical shell closures for s...
In this paper, we analyze the structural properties of Z = 132 and Z = 138 superheavy nuclei within ...
The results of extensive microscopic Relativistic Mean Field (RMF) calculations for the nuclei appea...
We study the extrapolation of nuclear shell structure to the region of superheavy nuclei in self-con...
We investigate the structure of the potential energy surfaces of the superheavy nuclei 258158Fm100, ...