Ab initio coupled-cluster theory for open-shell nuclei
Abstract
We develop a new method to describe properties of truly open-shell nuclei. This method is based on single-reference coupled-cluster theory and the equation-of-motion method with extensions to nuclei with nucleons outside a closed shell. We perform proof-of-principle calculations for the ground states of the helium isotopes He and the first excited state in He. The comparison with exact results from matrix diagonalization in small model spaces demonstrates the accuracy of the coupled-cluster methods. Three-particle--one-hole excitations of He play an important role for the accurate description of He. For the open-shell nucleus He, the computational cost of the method is comparable with the coupled-cluster singles-and-doubles approximation while its accuracy is similar to coupled-cluster with singles, doubles and triples excitations.
Cite
@article{arxiv.1102.1293,
title = {Ab initio coupled-cluster theory for open-shell nuclei},
author = {G. R. Jansen and M. Hjorth-Jensen and G. Hagen and T. Papenbrock},
journal= {arXiv preprint arXiv:1102.1293},
year = {2011}
}