Nuclear structure theory has recently gone through a major renewal with the development of
ab initio techniques that can be applied to a large number of atomic nuclei, well-beyond the …

This white paper reports on the discussions of the 2018 Facility for Rare Isotope Beams
Theory Alliance (FRIB-TA) topical program'From bound states to the continuum: Connecting …

We review recent progress and motivate the need for further developments in nuclear optical
potentials that are widely used in the theoretical analysis of nucleon elastic scattering and …

We derive ab initio optical potentials from self-consistent Green's function theory and
compute the elastic scattering of neutrons off oxygen and calcium isotopes. The comparison …

The key elements of the Unified Model are reviewed. The microscopic derivation of the Bohr
Hamiltonian by means of adiabatic time-dependent mean field theory is presented. By …

Background: Microscopic calculations of the electromagnetic response of light and medium-
mass nuclei are now feasible thanks to the availability of realistic nuclear interactions with …

A thermal extension of the relativistic nuclear field theory is formulated for the nuclear
response. The Bethe-Salpeter equation (BSE) with the time-dependent kernel for the particle …

Reactions with radioactive nuclear beams at relativistic energies have opened new doors to
clarify the mechanisms of stellar evolution and cataclysmic events involving stars and during …

Nuclear matter and finite nuclei at extreme isospin are studied within the microscopical
Giessen energy density functional (GEDF). The structure of the GEDF is discussed …

The exotic nucleus Be 11 has been extensively studied and much experimental information
is available on the structure of this system. We treat, within the framework of renormalized …