Ab Initio Path to Heavy Nuclei
Abstract
We present the first ab initio calculations of nuclear ground states up into the domain of heavy nuclei, spanning the range from 16-O to 132-Sn based on two- plus three-nucleon interactions derived within chiral effective field theory. We employ the similarity renormalization group for preparing the Hamiltonian and use coupled-cluster theory to solve the many-body problem for nuclei with closed sub-shells. Through an analysis of theoretical uncertainties resulting from various truncations in this framework, we identify and eliminate the technical hurdles that previously inhibited the step beyond medium-mass nuclei, allowing for reliable validations of nuclear Hamiltonians in the heavy regime. Following this path we show that chiral Hamiltonians qualitatively reproduce the systematics of nuclear ground-state energies up to the neutron-rich Sn isotopes.
Cite
@article{arxiv.1312.5685,
title = {Ab Initio Path to Heavy Nuclei},
author = {Sven Binder and Joachim Langhammer and Angelo Calci and Robert Roth},
journal= {arXiv preprint arXiv:1312.5685},
year = {2015}
}
Comments
5 pages, 5 figures