Effective spin-orbit models using correlated first-principles wave functions
Materials Science
2020-03-04 v1
Abstract
Diffusion Monte Carlo is one of the most accurate scalable many-body methods for solid state systems. However, to date, spin-orbit interactions have not been incorporated into these calcualtions at a first-principles level; only having been applied to small systems. In this technique, we use explicitly correlated first-principles quantum Monte Carlo calculations to derive an effective spin-orbit model Hamiltonian. The simplified model Hamiltonian is then solved to obtain the energetics of the system. To demonstrate this method, benchmark studies are performed in main-group atoms and monolayer tungsten disulfide, where high accuracy is obtained.
Cite
@article{arxiv.1809.04133,
title = {Effective spin-orbit models using correlated first-principles wave functions},
author = {Yueqing Chang and Lucas K. Wagner},
journal= {arXiv preprint arXiv:1809.04133},
year = {2020}
}
Comments
5 page, 4 figures