Nuclear weak decays provide important probes to fundamental symmetries in nature. A
precise description of these processes in atomic nuclei requires comprehensive knowledge …

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 …

Self-consistent methods for the structure of heavy and superheavy nuclei are reviewed. The
construction and application of energy-density functionals are discussed. The relationship …

Most atomic nuclei are deformed with a quadrupole shape described by its overall strength β
2 and triaxiality γ. The deformation can be accessed in high-energy heavy ion collisions by …

In the hydrodynamic model description of heavy ion collisions, the final-state anisotropic
flows vn are linearly related to the strengths of the multipole shape of the distribution of …

In the exothermic process of fission decay, an atomic nucleus splits into two or more
independent fragments. Several aspects of nuclear fission are not properly understood, in …

The dominance of prolate over oblate ground-state deformations has been a well-known
empirical fact. With the state-of-the-art deformed relativistic Hartree-Bogoliubov theory in …

Background: The study of exotic nuclei far from the β stability line is stimulated by the
development of radioactive ion beam facilities worldwide and brings opportunities and …

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

The dynamics of low-energy-induced fission is explored using a consistent microscopic
framework that combines the time-dependent generator coordinate method (TDGCM) and …