The information-geometric statistical analysis on the stability of model reductions, reported previously [Imbri\v{s}ak and Nomura, Phys. Rev. C 107, 034304 (2023)] with a focus on the manifold boundary approximation method in the application to the nuclear density-dependent point-coupling model of infinite nuclear matter, is extended to the numerically more challenging case of finite nuclei. A simple procedure is presented for determining the binding energies of doubly magic nuclei within the relativistic mean-field framework using the Woods-Saxon potential. The proposed procedure, employing the Fisher information matrix combined with algorithmic differentiation, is shown to provide reliable estimates of parameter uncertainties of the nucle...
Background: Mean-field methods based on an energy density functional (EDF) are powerful tools used t...
Background: Mean-field methods based on an energy density functional (EDF) are powerful tools used t...
We study a relativistic model of the nucleus consisting of nucleons coupled to mesonic degrees of fr...
The framework of nuclear energy density functionals has been employed to describe nuclear structure ...
A study of parameter sensitivity of nuclear energy density functionals, initiated in the first part ...
A study of parameter sensitivity of nuclear energy density functionals, initiated in the first part ...
We construct efficient emulators for the \emph{ab initio} computation of the infinite nuclear matter...
Power counting is applied to relativistic mean-field energy functionals to estimate contributions to...
A recent paper [M. Rashdan, Phys. Rev. C 63, 044303 (2001)] introduces the new parameterization NL-R...
The nuclear matter parameters (NMPs), those underlie in the construction of the equation of state (E...
Statistical analysis proved to be significant in determining the errors of theoretical models, as se...
We adjust a new improved relativistic mean-field effective interaction with explicit density depende...
A relativistic mean field parameter set is constructed aiming to describe the energy density of nucl...
We apply recently developed effective field theory nuclear models in mean field approximation (param...
Effects of the relativistic correction of the Coulomb interaction on doubly-magic nuclei are discuss...
Background: Mean-field methods based on an energy density functional (EDF) are powerful tools used t...
Background: Mean-field methods based on an energy density functional (EDF) are powerful tools used t...
We study a relativistic model of the nucleus consisting of nucleons coupled to mesonic degrees of fr...
The framework of nuclear energy density functionals has been employed to describe nuclear structure ...
A study of parameter sensitivity of nuclear energy density functionals, initiated in the first part ...
A study of parameter sensitivity of nuclear energy density functionals, initiated in the first part ...
We construct efficient emulators for the \emph{ab initio} computation of the infinite nuclear matter...
Power counting is applied to relativistic mean-field energy functionals to estimate contributions to...
A recent paper [M. Rashdan, Phys. Rev. C 63, 044303 (2001)] introduces the new parameterization NL-R...
The nuclear matter parameters (NMPs), those underlie in the construction of the equation of state (E...
Statistical analysis proved to be significant in determining the errors of theoretical models, as se...
We adjust a new improved relativistic mean-field effective interaction with explicit density depende...
A relativistic mean field parameter set is constructed aiming to describe the energy density of nucl...
We apply recently developed effective field theory nuclear models in mean field approximation (param...
Effects of the relativistic correction of the Coulomb interaction on doubly-magic nuclei are discuss...
Background: Mean-field methods based on an energy density functional (EDF) are powerful tools used t...
Background: Mean-field methods based on an energy density functional (EDF) are powerful tools used t...
We study a relativistic model of the nucleus consisting of nucleons coupled to mesonic degrees of fr...