Spin Wave Analysis of Low-Temperature Thermal Hall Effect in the Candidate Kitaev Spin Liquid $α$-RuCl${}_3$

Abstract: Proposed effective Hamiltonians from the literature for the material $\alpha$-RuCl${}3$ are used to compute the magnon thermal Hall conductivity, $\kappa{xy}$, using linear spin wave theory for the magnetically ordered state. No model previously proposed that was tested explains published experimental data. Models with Kitaev interaction $K>0$ are seen to predict $\kappa_{xy}\gtrsim 0$, which is inconsistent with the data. Fluctuations toward a Kitaev-type spin liquid would have the wrong sign to explain the data. However, a slight variant of a previously proposed model predicts a large $\kappa_{xy}$, demonstrating that the low-temperature thermal Hall effect could be generated exclusively by the Berry curvature of the magnon bands. The experimental data of $\kappa_{xy}$ can therefore serve as another method to constrain a proposed effective Hamiltonian.