Generalized Regular k-point Grid Generation On The Fly
Materials Science
2019-02-12 v1 Computational Physics
Abstract
In the DFT community, it is common practice to use regular k-point grids (Monkhorst-Pack, MP) for Brillioun zone integration. Recently Wisesa et. al.\cite{wisesa2016efficient} and Morgan et. al.\cite{MORGAN2018424} demonstrated that generalized regular (GR) grids offer advantages over traditional MP grids. GR grids have not been widely adopted because one must search through a large number of candidate grids. This work describes an algorithm that can quickly search over GR grids for those that have the most uniform distribution of points and the best symmetry reduction. The grids are ~60% more efficient, on average, than MP grids and can now be generated on the fly in seconds.
Cite
@article{arxiv.1902.03257,
title = {Generalized Regular k-point Grid Generation On The Fly},
author = {Wiley S. Morgan and John E. Christensen and Parker K. Hamilton and Jeremy J. Jorgensen and Branton J. Campbell and Gus L. W. Hart and Rodney W. Forcade},
journal= {arXiv preprint arXiv:1902.03257},
year = {2019}
}