Halo Structures in p-Shell Hypernuclei with Natural Orbitals
Abstract
We extend the concept of natural orbitals as an optimized single-particle basis for ab initio nuclear many-body calculations to hypernuclei and show that their superior properties, in particular accelerated convergence and independence of the underlying harmonic-oscillator frequency, can be directly transferred to the hypernuclear regime as demonstrated in no-core shell model calculations for selected p-shell hypernuclei. Moreover, the radial single-particle wavefunctions associated with the natural-orbital basis yield important structural information with respect to the different particle species allowing us to identify a hyperon halo in {\Lambda}He5. We further explore nucleonic and hyperonic halo structures in A=6 and A=7 singly-strange hypernuclei based on one-body densities and point-particle radii obtained from no-core shell model calculations with realistic interactions from chiral effective field theory.
Cite
@article{arxiv.2501.08013,
title = {Halo Structures in p-Shell Hypernuclei with Natural Orbitals},
author = {Marco Knöll and Robert Roth},
journal= {arXiv preprint arXiv:2501.08013},
year = {2025}
}
Comments
9 pages, 8 figures