The nuclear equation of state (EOS) is at the center of numerous theoretical and
experimental efforts in nuclear physics. With advances in microscopic theories for nuclear …

Over the last decade, new developments in Similarity Renormalization Group techniques
and nuclear many-body methods have dramatically increased the capabilities of ab initio …

Photocatalytic platforms based on ultrathin reactive materials facilitate carrier transport and
extraction but are typically restricted to a narrow set of materials and spectral operating …

We review the ab initio symmetry-adapted (SA) framework for determining the structure of
stable and unstable nuclei, along with related electroweak, decay, and reaction processes …

We construct an efficient emulator for two-body scattering observables using the general
(complex) Kohn variational principle and trial wave functions derived from eigenvector …

Nuclear astrophysics is a field at the intersection of nuclear physics and astrophysics, which
seeks to understand the nuclear engines of astronomical objects and the origin of the …

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

We present calculations of the Ca 40 transverse response function obtained from coupled-
cluster theory used in conjunction with the Lorentz integral transform method. We employ …

We present a time-dependent quantum algorithm for nuclear inelastic scattering in the time-
dependent basis function on qubits approach. This algorithm aims to quantum simulate a …

Background: Calculating microscopic optical potentials for elastic scattering at intermediate
energies from light nuclei in an ab initio fashion within the Watson expansion has been …