Thermal Hall Conductivity in Cuprates

Marie-Eve Boulanger; Gael Grissonnanche; Sven Badoux; Etienne Lefrancois; Anaelle Legros; Adrien Gourgout; Maxime Dion; Cuihuan Wang; Xianhui Chen; Ruixing Liang; Walter N Hardy; Douglas A. Bonn; Louis Taillefer

Thermal Hall Conductivity in Cuprates

ORAL

Abstract

Thermal Hall conductivity (k_xy) has been used to characterize the pseudogap phase of hole-doped cuprates [1]. A new and unexpected result was found: the presence of a negative thermal Hall signal appearing in the pseudogap phase, which grows as the sample becomes insulating, being maximal in the Mott insulator La₂CuO₄. The heat carriers responsible for that large thermal Hall conductivity were shown to be phonons [2].
The microscopic mechanism that confers chirality on phonons remains to be discovered. To shed light on this, we measured k_xy in two additional Mott insulators, Nd₂CuO₄ and Sr₂CuO₂Cl₂. This comparative study [3] shows that a large k_xyis still present in those Mott insulators, ruling out mechanisms such as apical oxygen, spin canting or structural domains. Strong similarities in the temperature dependence and relative magnitude of k_xy and k_xx provide further evidence that it is indeed the phonons that are responsible for k_xy in those materials. A possible mechanism of chirality could be the coupling of phonons to short-range antiferromagnetic correlations.

[1] G. Grissonnanche et al. Nature 571, 376 (2019).
[2] G. Grissonnanche et al. Nature Physics, arXiv:2003.00111 (2020).
[3] M-E. Boulanger et al. Nature Communications 11, 5325 (2020).

March 18, 2021, 12:30 PM – March 18, 2021, 12:42 PM

Presenters

Marie-Eve Boulanger

Universite de Sherbrooke (Canada), Universite de Sherbrooke

Authors

Marie-Eve Boulanger

Universite de Sherbrooke (Canada), Universite de Sherbrooke
Gael Grissonnanche

Institut Quantique, Département de physique & RQMP, Université de Sherbrooke, Universite de Sherbrooke (Canada), Universite de Sherbrooke, Cornell University
Sven Badoux

Institut Quantique, Département de physique & RQMP, Université de Sherbrooke, Universite de Sherbrooke
Etienne Lefrancois

Universite de Sherbrooke (Canada), Universite de Sherbrooke
Anaelle Legros

Johns Hopkins University, Universite de Sherbrooke, Université de Sherbrooke
Adrien Gourgout

Institut Quantique, Département de physique & RQMP, Université de Sherbrooke, Universite de Sherbrooke (Canada), Universite de Sherbrooke
Maxime Dion

Universite de Sherbrooke (Canada), Universite de Sherbrooke, Université de Sherbrooke
Cuihuan Wang

University of Science and Technology of China
Xianhui Chen

Physics, University of Science and Technology of China,, University of Science and Technology of China
Ruixing Liang

Quantum Matter Institute, University of British Columbia, University of British Columbia, Department of Physics and Astronomy, University of British Columbia
Walter N Hardy

University of British Columbia, Department of Physics and Astronomy, University of British Columbia
Douglas A. Bonn

Quantum Matter Institute, University of British Columbia, University of British Columbia, Stewart Blusson Quantum Matter Institute, University of British Columbia, Vancouver, Canada
Louis Taillefer

Institut Quantique, Département de physique & RQMP, Université de Sherbrooke, Universite de Sherbrooke (Canada), Universite de Sherbrooke, Université de Sherbrooke