Spin-orbit decomposition of ab initio wavefunctions
Abstract
Although the modern shell-model picture of atomic nuclei is built from single-particle orbits with good total angular momentum , leading to - coupling, phenomenological models suggested decades ago that for -shell nuclides a simpler picture can be realized via coupling of total spin and total orbital angular momentum . I revisit this idea with large-basis, no-core shell model (NCSM) calculations using modern \textit{ab initio} two-body interactions, and dissect the resulting wavefunctions into their component - and -components. Remarkably, there is broad agreement with calculations using the phenomenological Cohen-Kurath forces, despite a gap of nearly fifty years and six orders of magnitude in basis dimensions. I suggest - may be a useful tool for analyzing \textit{ab initio} wavefunctions of light nuclei, for example in the case of rotational bands.
Cite
@article{arxiv.1409.7355,
title = {Spin-orbit decomposition of ab initio wavefunctions},
author = {Calvin W. Johnson},
journal= {arXiv preprint arXiv:1409.7355},
year = {2015}
}
Comments
14 pages, 14 figures