Spin Thermal Hall Conductivity of a Kagom\'e Antiferromagnet
Abstract
A clear thermal Hall signal (xy) was observed in the spin liquid phase of the S=1/2 kagom\'e antiferromagnet Ca kapellasite (CaCu3(OH)6Cl2· 0.6H2O). We found that xy is well reproduced, both qualitatively and quantitatively, using the Schwinger-boson mean-field theory with the Dzyaloshinskii--Moriya interaction of D/J 0.1. In particular, xy values of Ca kapellasite and those of another kagom\'e antiferromagnet, volborthite, converge to one single curve in simulations modeled using Schwinger bosons, indicating a common temperature dependence of xy for the spins of a kagom\'e antiferromagnet.
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