The nuclear matrix elements that govern the rate of neutrinoless double beta decay must be
accurately calculated if experiments are to reach their full potential. Theorists have been …

This contribution reviews the present status on the available constraints to the nuclear
equation of state (EoS) around saturation density from nuclear structure calculations on …

Relativistic energy density functionals (EDF) have become a standard tool for nuclear
structure calculations, providing a complete and accurate, global description of nuclear …

The last decades brought impressive progress in synthesizing and studying properties of
nuclides located very far from the beta stability line. Among the most fundamental properties …

This review paper concerns the research devoted to the study of the properties of dipole
excitations in nuclei. The main focus is on questions related to isospin effects in these types …

This review aims at giving a critical description of the theoretical researches conducted on
the low-lying dipole states traditionally denoted as Pygmy Dipole Resonances (PDR). A brief …

The basic concepts and recent developments in the time-dependent density-functional
theory (TDDFT) for describing nuclear dynamics at low energy are presented. The symmetry …

The pygmy dipole resonance has been studied in the proton-magic nucleus Sn 124 with the
(α, α′ γ) coincidence method at E α= 136 MeV. The comparison with results of photon …

The nuclear incompressibility is a key parameter of the nuclear equation of state that can be
extracted from the measurements of the so-called “breathing mode” of finite nuclei. The most …

We investigate the quantum equation of motion (qEOM), a hybrid quantum-classical
algorithm for computing excitation properties of a fermionic many-body system, with a …