Adaptively compressed exchange in LAPW
Abstract
We present an implementation of the adaptively compressed exchange (ACE) operator in the LAPW formalism. ACE is a low-rank representation of the Fock exchange that avoids any loss of precision for the total energy. Our study shows that this property remains in the all-electron case, as we apply this method in non-relativistic total-energy calculations with a hybrid exchange-correlation functional PBE0. The obtained data for light atoms and molecules are within a few Ha off the precise multi-resolution-analysis calculations. Aside from ACE, another key ingredient to achieve such a high precision with Fock exchange was the use of high-energy local orbitals. Finally, we use this implementation to calculate PBE0 gaps in solids and compare the results to other all-electron results.
Cite
@article{arxiv.2201.10914,
title = {Adaptively compressed exchange in LAPW},
author = {Davis Zavickis and Kristians Kacars and Jānis Cīmurs and Andris Gulans},
journal= {arXiv preprint arXiv:2201.10914},
year = {2022}
}