Alignment of wave functions for angular momentum projection
Abstract
Angular momentum projection is used to obtain eigen states of angular momentum from general wave functions. Multi-configuration mixing calculation with angular momentum projection is an important microscopic method in nuclear physics. For accurate multi-configuration mixing calculation with angular momentum projection, concentrated distribution of components of angular momentum in the body-fixed frame (-distribution) is favored. Orientation of wave functions strongly affects -distribution. Minimization of variance of is proposed as an alignment method to obtain wave functions that have concentrated -distribution. Benchmark calculations are performed for -Mg cluster structure, triaxially superdeformed states in Ar, and Hartree-Fock states of some nuclei. The proposed alignment method is useful and works well for various wave functions to obtain concentrated -distribution.
Keywords
Cite
@article{arxiv.1608.08726,
title = {Alignment of wave functions for angular momentum projection},
author = {Yasutaka Taniguchi},
journal= {arXiv preprint arXiv:1608.08726},
year = {2016}
}