Electronic structure of by fixed-node and fixed-phase diffusion Monte Carlo methods
- 15 August 2022
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 106 (7), 075127
- https://doi.org/10.1103/physrevb.106.075127
Abstract
Layered material has caught wide attention due to its possible realization of Kitaev's spin liquid and its electronic structure that involves the interplay of electron-electron correlations and spin-orbit effects. Several studies have suggested that both electron-electron correlations and spin-orbit effects are crucial for accurately describing the band gap. This work studies the importance of these two effects using fixed-node and fixed-phase diffusion Monte Carlo calculations both in spin-averaged and explicit spin-orbit formalisms. In the latter, the Slater-Jastrow trial function is constructed from two-component spin orbitals using our recent quantum Monte Carlo (QMC) developments and thoroughly tested effective core potentials. Our results show that the gap in the ideal crystal is already accurately described by the spin-averaged case, with the dominant role being played by the magnetic ground state with significant exchange and electron correlation effects. We find qualitative agreement between hybrid DFT, , and QMC. In addition, QMC results agree very well with available experiments, and we identify the values of exact Fock exchange mixing that provide comparable gaps. Explicit spin-orbit QMC calculations reveal that the effect of spin-orbit coupling on the gap is minor, of the order of 0.2 eV, which corresponds to the strength of the spin orbit of the Ru atom.
Funding Information
- U.S. Department of Energy (DE-AC05-00OR22725, DE-AC02-06CH11357)
- Office of Science
- Basic Energy Sciences
- Division of Materials Sciences and Engineering
- National Energy Research Scientific Computing Center
- Lawrence Berkeley National Laboratory (DE-AC02-05CH11231)
- National Nuclear Security Administration (DE-NA0003525)
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