Phonon Thermal Hall Effect in Strontium Titanate

Xiaokang Li; Benoît Fauqué; Zengwei Zhu; Kamran Behnia

doi:10.1103/PhysRevLett.124.105901

Phonon Thermal Hall Effect in Strontium Titanate

Xiaokang Li, Benoît Fauqué, Zengwei Zhu, Kamran Behnia

Research output: Contribution to journal › Article › peer-review

Abstract

It has been known for more than a decade that phonons can produce an off-diagonal thermal conductivity in the presence of a magnetic field. Recent studies of thermal Hall conductivity, κxy, in a variety of contexts, however, have assumed a negligibly small phonon contribution. We present a study of κxy in quantum paraelectric SrTiO3, which is a nonmagnetic insulator and find that its peak value exceeds what has been reported in any other insulator, including those in which the signal has been qualified as "giant." Remarkably, κxy(T) and κ(T) peak at the same temperature and the former decreases faster than the latter at both sides of the peak. Interestingly, in the case of La2CuO4 and α-RuCl3, κxy(T) and κ(T) peak also at the same temperature. We also studied KTaO3 and found a small signal, indicating that a sizable κxy(T) is not a generic feature of quantum paraelectrics. Combined to other observations, this points to a crucial role played by antiferrodistortive domains in generating κxy of this solid.

Original language	English
Article number	105901
Journal	Physical Review Letters
Volume	124
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevLett.124.105901
Publication status	Published - 13 Mar 2020
Externally published	Yes

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title = "Phonon Thermal Hall Effect in Strontium Titanate",

abstract = "It has been known for more than a decade that phonons can produce an off-diagonal thermal conductivity in the presence of a magnetic field. Recent studies of thermal Hall conductivity, κxy, in a variety of contexts, however, have assumed a negligibly small phonon contribution. We present a study of κxy in quantum paraelectric SrTiO3, which is a nonmagnetic insulator and find that its peak value exceeds what has been reported in any other insulator, including those in which the signal has been qualified as {"}giant.{"} Remarkably, κxy(T) and κ(T) peak at the same temperature and the former decreases faster than the latter at both sides of the peak. Interestingly, in the case of La2CuO4 and α-RuCl3, κxy(T) and κ(T) peak also at the same temperature. We also studied KTaO3 and found a small signal, indicating that a sizable κxy(T) is not a generic feature of quantum paraelectrics. Combined to other observations, this points to a crucial role played by antiferrodistortive domains in generating κxy of this solid.",

author = "Xiaokang Li and Beno{\^i}t Fauqu{\'e} and Zengwei Zhu and Kamran Behnia",

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AU - Fauqué, Benoît

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AU - Behnia, Kamran

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Y1 - 2020/3/13

N2 - It has been known for more than a decade that phonons can produce an off-diagonal thermal conductivity in the presence of a magnetic field. Recent studies of thermal Hall conductivity, κxy, in a variety of contexts, however, have assumed a negligibly small phonon contribution. We present a study of κxy in quantum paraelectric SrTiO3, which is a nonmagnetic insulator and find that its peak value exceeds what has been reported in any other insulator, including those in which the signal has been qualified as "giant." Remarkably, κxy(T) and κ(T) peak at the same temperature and the former decreases faster than the latter at both sides of the peak. Interestingly, in the case of La2CuO4 and α-RuCl3, κxy(T) and κ(T) peak also at the same temperature. We also studied KTaO3 and found a small signal, indicating that a sizable κxy(T) is not a generic feature of quantum paraelectrics. Combined to other observations, this points to a crucial role played by antiferrodistortive domains in generating κxy of this solid.

AB - It has been known for more than a decade that phonons can produce an off-diagonal thermal conductivity in the presence of a magnetic field. Recent studies of thermal Hall conductivity, κxy, in a variety of contexts, however, have assumed a negligibly small phonon contribution. We present a study of κxy in quantum paraelectric SrTiO3, which is a nonmagnetic insulator and find that its peak value exceeds what has been reported in any other insulator, including those in which the signal has been qualified as "giant." Remarkably, κxy(T) and κ(T) peak at the same temperature and the former decreases faster than the latter at both sides of the peak. Interestingly, in the case of La2CuO4 and α-RuCl3, κxy(T) and κ(T) peak also at the same temperature. We also studied KTaO3 and found a small signal, indicating that a sizable κxy(T) is not a generic feature of quantum paraelectrics. Combined to other observations, this points to a crucial role played by antiferrodistortive domains in generating κxy of this solid.

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Phonon Thermal Hall Effect in Strontium Titanate

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