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

Recent advances in nuclear structure theory have significantly enlarged the accessible part
of the nuclear landscape via ab initio many-body calculations. These developments open …

We present an approach to modeling an image-space prior on scene motion. Our prior is
learned from a collection of motion trajectories extracted from real video sequences …

Eigenvector continuation is a computational method for parametric eigenvalue problems that
uses subspace projection with a basis derived from eigenvector snapshots from different …

We provide the first comprehensive study of hyperons in neutron star mergers and quantify
their specific impact. We discuss the thermal behavior of hyperonic equations of state …

We combine Newton's variational method with ideas from eigenvector continuation to
construct a fast & accurate emulator for two-body scattering observables. The emulator will …

This is a collection of perspective pieces contributed by the participants of the Institute for
Nuclear Theory's Program on Nuclear Physics for Precision Nuclear Physics which was held …

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 …

The calculable R-matrix theory has been formulated successfully for regular boundary
conditions with vanishing radial wave functions at the coordinate origins [P. Descouvemont …

The BUQEYE collaboration (Bayesian Uncertainty Quantification: Errors in Your effective
field theory) presents a pedagogical introduction to projection-based, reduced-order …