Non-Kitaev vs. Kitaev Honeycomb Cobaltates

Abstract

Recently, honeycomb cobaltates with 3d7 were proposed to display Kitaev physics despite weak spin-orbit coupling. However, other theoretical and experimental works found leading XXZ Heisenberg and negligible Kitaev interactions in BaCo2(AsO4)2 (BCAO), which calls for a further study to clarify the origin of the discrepancies. Here we derive the analytical expressions of the spin model using strong-coupling perturbation theory. With tight binding parameters obtained by ab-initio calculations for idealized honeycomb BCAO, we find that the largest intraorbital t2g-t2g exchange path, which was assumed to be small in the earlier theory proposal, leads to a ferromagnetic (FM) Heisenberg interaction. This becomes the dominant interaction, as other t2g-eg and eg-eg contributions almost cancel each other. Exactly the same assumed-to-be-small channel also generates an antiferromagnetic Kitaev interaction, which then cancels a FM Kitaev interaction from t2g-eg paths, resulting in a small Kitaev interaction. Under the trigonal distortion, the preeminent isotropic Heisenberg becomes an anisotropic XXZ model as expected, which is the case for BCAO. However, in Na3Co2SbO6 the intraorbital t2g-t2g hopping is smaller and comparable to the t2g-eg hopping, leading to a delicate competition between enhanced Kitaev and reduced Heisenberg interactions.

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