Magnetic heat transport in R2CuO4 (R = La, Pr, Nd, Sm, Eu, and Gd)
Abstract
We have studied the thermal conductivity on single crystalline samples of the antiferromagnetic monolayer cuprates R2CuO4 with R = La, Pr, Nd, Sm, Eu, and Gd. For a heat current within the CuO2 planes, i.e. for ab we find high-temperature anomalies around 250 K in all samples. In contrast, the thermal conductivity c perpendicular to the CuO2 planes, which we measured for R = La, Pr, and Gd, shows a conventional temperature dependence as expected for a purely phononic thermal conductivity. This qualitative anisotropy of i and the anomalous temperature dependence of ab give evidence for a significant magnetic contribution mag to the heat transport within the CuO2 planes. Our results suggest, that a large magnetic contribution to the heat current is a common feature of single-layer cuprates. We find that mag is hardly affected by structural instabilities, whereas already weak charge carrier doping causes a strong suppression of mag.
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