Are low-energy nuclear observables sensitive to high-energy phase shifts?
arXiv:nucl-th/0701013 · doi:10.1016/j.physletb.2007.04.048
Abstract
Conventional nucleon-nucleon potentials with strong short-range repulsion require contributions from high-momentum wave function components even for low-energy observables such as the deuteron binding energy. This can lead to the misconception that reproducing high-energy phase shifts is important for such observables. Interactions derived via the similarity renormalization group decouple high-energy and low-energy physics while preserving the phase shifts from the starting potential. They are used to show that high-momentum components (and high-energy phase shifts) can be set to zero when using low-momentum interactions, without losing information relevant for low-energy observables.
13 pages, 5 figures; reference and acknowledgment added