The atomic nucleus is a quantum many-body system whose constituent nucleons (protons
and neutrons) are subject to complex nucleon-nucleon interactions that include spin-and …

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 …

Ground-state properties of even–even nuclei with 8≤ Z≤ 120 from the proton drip line to the
neutron drip line have been investigated using the deformed relativistic Hartree–Bogoliubov …

We report a systematic study of nuclear matrix elements (NMEs) in neutrinoless double-β
decays with a state-of-the-art beyond-mean-field covariant density functional theory. The …

Covariant density functional theory with a few parameters has been widely used to describe
the ground-and excited-state properties for nuclei all over the nuclear chart. In order to …

The mean-field approximation based on effective interactions or density functionals plays a
pivotal role in the description of finite quantum many-body systems that are too large to be …

A deformed relativistic Hartree Bogoliubov (RHB) theory in continuum is developed aiming
at a proper description of exotic nuclei, particularly those with a large spatial extension. In …

Background: Many different shape degrees of freedom play crucial roles in determining the
nuclear ground state and saddle point properties and the fission path. For the study of …

To explore the rotational excitation of deformed halo nuclei, the angular momentum
projection (AMP) has been implemented in the deformed relativistic Hartree-Bogoliubov …

Neutron-rich N= 22, 24, 26 magnesium isotopes were studied via in-beam γ-ray
spectroscopy at the RIKEN Radioactive Isotope Beam Factory following secondary …