The relation of collective observables in deformed nuclei is discussed with particular emphasis on the correlations between masses and spectroscopic observables. The role of valence nucleon number in modulating such correlations is introduced and exemplified by data on the Pt isotopes
Shape coexistence in nuclei appears to be unique in the realm of finite many-body quantum systems. I...
This thesis is focused on the analysis of residual correlations bet- ween deviations of nuclear mass...
A typical form of mass formula is re-explained in terms of nuclear structure. For $ N \approx Z $ nu...
The relation of collective observables in deformed nuclei is discussed with particular emphasis on t...
Despite the apparent complexity of nuclear structural evolution, recent work has shown a remarkable ...
Background: A characteristic observable of nuclear collective motion is the relative B(E2) values fr...
Despite the fact that atomic nuclei are complex many-body objects, influenced strongly by two forces...
Symmetries in nature offer very simple descriptions of complex systems. Partial Dynamical Symmetries...
Recently, several nearly universal correlations of nuclear observables, spanning nuclei from singly ...
In this contribution I present systematic calculations on the spectroscopy and electromagnetic trans...
Several methods based on effective interactions or Lagrangians are available today. Although differe...
The importance of the number of valence nucleons and its effect in nuclear binding to collective eff...
The ground-state correlation energies associated with collective surface and pairing vibrations are ...
We propose a phenomenological approach to examine the role of short- and long-range nucleon-nucleon ...
International audienceThe odd-even mass staggering in nuclei is analyzed in the context of self-cons...
Shape coexistence in nuclei appears to be unique in the realm of finite many-body quantum systems. I...
This thesis is focused on the analysis of residual correlations bet- ween deviations of nuclear mass...
A typical form of mass formula is re-explained in terms of nuclear structure. For $ N \approx Z $ nu...
The relation of collective observables in deformed nuclei is discussed with particular emphasis on t...
Despite the apparent complexity of nuclear structural evolution, recent work has shown a remarkable ...
Background: A characteristic observable of nuclear collective motion is the relative B(E2) values fr...
Despite the fact that atomic nuclei are complex many-body objects, influenced strongly by two forces...
Symmetries in nature offer very simple descriptions of complex systems. Partial Dynamical Symmetries...
Recently, several nearly universal correlations of nuclear observables, spanning nuclei from singly ...
In this contribution I present systematic calculations on the spectroscopy and electromagnetic trans...
Several methods based on effective interactions or Lagrangians are available today. Although differe...
The importance of the number of valence nucleons and its effect in nuclear binding to collective eff...
The ground-state correlation energies associated with collective surface and pairing vibrations are ...
We propose a phenomenological approach to examine the role of short- and long-range nucleon-nucleon ...
International audienceThe odd-even mass staggering in nuclei is analyzed in the context of self-cons...
Shape coexistence in nuclei appears to be unique in the realm of finite many-body quantum systems. I...
This thesis is focused on the analysis of residual correlations bet- ween deviations of nuclear mass...
A typical form of mass formula is re-explained in terms of nuclear structure. For $ N \approx Z $ nu...
DOI
Add to ORKG