Add to ORKGWe discuss the performance of two widely used nuclear mean-field models, the relativistic mean-field theory (RMF) and the non-relativistic Skyrme-Hartree-Fock approach (SHF), with particular emphasis on the description of superheavy elements (SHE). We provide a short introduction to the SHF and RMF, the relations between these two approaches and the relations to other nuclear structure models, briefly review the basic properties with respect to normal nuclear observables, and finally present and discuss recent results on the binding properties of SHE computed with a broad selection of SHF and RMF parametrizations.info:eu-repo/semantics/publishe
We investigate the systematics of fission barriers in superheavy elements in the range Z = 108-120 a...
The shell structure of superheavy nuclei is investigated within various parametrizations of relativi...
Shell corrections to the nuclear binding energy as a measure of shell effects in superheavy nuclei a...
We discuss the performance of two widely used nuclear mean-field models, the relativistic mean-field...
Self-consistent microscopic mean-field models are powerful tools for the description of nuclear stru...
Superheavy Elements (SHE) up to Z = 118 have been produced and studied. The Relativistic Mean Field ...
The extrapolation of self-consistent nuclear mean-field models to the region of superheavy elements ...
We study the extrapolation of nuclear shell structure to the region of superheavy nuclei in self-con...
We review the prediction of fission properties of super-heavy elements (SHE) by self-consistent mean...
At present many laboratories in the field of nuclear physics study on the Super-Heavy Nuclei (SHN) ...
We investigate the structure of the potential energy surfaces of the superheavy nuclei 258158Fm100, ...
The ground–state properties of superheavy nuclei are investigated within various parametrisations of...
The results of extensive microscopic relativistic mean field (RMF) calculations for the nuclei appea...
The essentials of the Relativistic Mean Field (RMF) theory and some of its recent applications are p...
We have carried out a study of superheavy nuclei in the framework of the relativistic mean-field the...
We investigate the systematics of fission barriers in superheavy elements in the range Z = 108-120 a...
The shell structure of superheavy nuclei is investigated within various parametrizations of relativi...
Shell corrections to the nuclear binding energy as a measure of shell effects in superheavy nuclei a...
We discuss the performance of two widely used nuclear mean-field models, the relativistic mean-field...
Self-consistent microscopic mean-field models are powerful tools for the description of nuclear stru...
Superheavy Elements (SHE) up to Z = 118 have been produced and studied. The Relativistic Mean Field ...
The extrapolation of self-consistent nuclear mean-field models to the region of superheavy elements ...
We study the extrapolation of nuclear shell structure to the region of superheavy nuclei in self-con...
We review the prediction of fission properties of super-heavy elements (SHE) by self-consistent mean...
At present many laboratories in the field of nuclear physics study on the Super-Heavy Nuclei (SHN) ...
We investigate the structure of the potential energy surfaces of the superheavy nuclei 258158Fm100, ...
The ground–state properties of superheavy nuclei are investigated within various parametrisations of...
The results of extensive microscopic relativistic mean field (RMF) calculations for the nuclei appea...
The essentials of the Relativistic Mean Field (RMF) theory and some of its recent applications are p...
We have carried out a study of superheavy nuclei in the framework of the relativistic mean-field the...
We investigate the systematics of fission barriers in superheavy elements in the range Z = 108-120 a...
The shell structure of superheavy nuclei is investigated within various parametrizations of relativi...
Shell corrections to the nuclear binding energy as a measure of shell effects in superheavy nuclei a...