Periodic DFT calculations to compute the attributes of a quantum material: honeycomb ruthenium trichloride.

Autor: Koval, Ashlyn M., Jenness, Glen R., Schutt, Timothy C., Kosgei, Gilbert K., Fernando, P. U. Ashvin I., Shukla, Manoj K.
Zdroj: Physical Chemistry Chemical Physics (PCCP); 7/28/2024, Vol. 26 Issue 28, p19369-19379, 11p
Abstrakt: Quantum spin liquids (QSLs) have become prominent materials of interest in the pursuit of fault-tolerant materials for quantum computing applications. This is due to the fact that these materials are theorized to host an interesting variety of quantum phenomena such as quasi-particles that may behave as anyons as a result of the high entangled nature of the spin states within the systems. Computing the electronic and magnetic properties of these materials is necessary in order to understand the underlying interactions of the materials. In this paper, the structural, electronic, and magnetic properties including lattice parameters, bandgap, Heisenberg coupling constants, and Curie temperatures for α-RuCl3, a promising candidate for the Kitaev QSL model, are computed using periodic density functional theory. Furthermore, various parameters of the calculations (i.e. functional choice, basis set, k-point density, and Hubbard correction) are varied in order to determine what effect, if any, the computational setup has on the computed properties. The results of this study indicate that PBE functional with Hubbard corrections of 1.5–2.5 eV with a k-point density of 3.0 points per Å−1 appear to be the best parameters to compute Heisenberg coupling constants for α-RuCl3. These parameters with the addition of spin orbit coupling works well for computing Curie temperatures for α-RuCl3. Distinct differences are noted in the computations of the bulk structure vs. monolayer structures, indicating that interactions between the layers play a role in the material properties and changes to the inter-layer spacing may result in interesting and unique magnetic properties that require further investigation. [ABSTRACT FROM AUTHOR]
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