Diagonal and off-diagonal thermal conduction with resonant phonon scattering in Ni3Te O6

Heejun Yang; Xianghan Xu; Jun Han Lee; Yoon Seok Oh; Sang Wook Cheong; Je Geun Park

doi:10.1103/PhysRevB.106.144417

Diagonal and off-diagonal thermal conduction with resonant phonon scattering in Ni3Te O6

Heejun Yang, Xianghan Xu, Jun Han Lee, Yoon Seok Oh, Sang Wook Cheong, Je Geun Park

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11 Scopus citations

Abstract

The coupling between phonon and magnon is ubiquitous in magnetic materials and plays a crucial role in many aspects of magnetic properties, most notably in spintronics. Yet, this academically and technologically interesting problem still poses a severe challenge to a general understanding of the issue in certain materials. We report that Ni3TeO6 exhibits clear evidence of significant magnon-phonon coupling in both longitudinal thermal conductivity (κxx) and thermal Hall coefficient (κxy). The Debye-Callaway model, a phenomenological description for phonon heat conduction, can explain the measured magnetic field dependence of κxx(H): phonon scattering from spin fluctuation in the paramagnetic phase and additional scattering due to magnon-phonon coupling in the collinear antiferromagnetic phase. We further suggest that a similar approach could be applied to understand the finite κxy values in Ni3TeO6.

Original language	English (US)
Article number	144417
Journal	Physical Review B
Volume	106
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevB.106.144417
State	Published - Oct 1 2022
Externally published	Yes

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© 2022 American Physical Society.

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abstract = "The coupling between phonon and magnon is ubiquitous in magnetic materials and plays a crucial role in many aspects of magnetic properties, most notably in spintronics. Yet, this academically and technologically interesting problem still poses a severe challenge to a general understanding of the issue in certain materials. We report that Ni3TeO6 exhibits clear evidence of significant magnon-phonon coupling in both longitudinal thermal conductivity (κxx) and thermal Hall coefficient (κxy). The Debye-Callaway model, a phenomenological description for phonon heat conduction, can explain the measured magnetic field dependence of κxx(H): phonon scattering from spin fluctuation in the paramagnetic phase and additional scattering due to magnon-phonon coupling in the collinear antiferromagnetic phase. We further suggest that a similar approach could be applied to understand the finite κxy values in Ni3TeO6.",

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AU - Yang, Heejun

AU - Xu, Xianghan

AU - Lee, Jun Han

AU - Oh, Yoon Seok

AU - Cheong, Sang Wook

AU - Park, Je Geun

PY - 2022/10/1

Y1 - 2022/10/1

N2 - The coupling between phonon and magnon is ubiquitous in magnetic materials and plays a crucial role in many aspects of magnetic properties, most notably in spintronics. Yet, this academically and technologically interesting problem still poses a severe challenge to a general understanding of the issue in certain materials. We report that Ni3TeO6 exhibits clear evidence of significant magnon-phonon coupling in both longitudinal thermal conductivity (κxx) and thermal Hall coefficient (κxy). The Debye-Callaway model, a phenomenological description for phonon heat conduction, can explain the measured magnetic field dependence of κxx(H): phonon scattering from spin fluctuation in the paramagnetic phase and additional scattering due to magnon-phonon coupling in the collinear antiferromagnetic phase. We further suggest that a similar approach could be applied to understand the finite κxy values in Ni3TeO6.

AB - The coupling between phonon and magnon is ubiquitous in magnetic materials and plays a crucial role in many aspects of magnetic properties, most notably in spintronics. Yet, this academically and technologically interesting problem still poses a severe challenge to a general understanding of the issue in certain materials. We report that Ni3TeO6 exhibits clear evidence of significant magnon-phonon coupling in both longitudinal thermal conductivity (κxx) and thermal Hall coefficient (κxy). The Debye-Callaway model, a phenomenological description for phonon heat conduction, can explain the measured magnetic field dependence of κxx(H): phonon scattering from spin fluctuation in the paramagnetic phase and additional scattering due to magnon-phonon coupling in the collinear antiferromagnetic phase. We further suggest that a similar approach could be applied to understand the finite κxy values in Ni3TeO6.

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Diagonal and off-diagonal thermal conduction with resonant phonon scattering in Ni3Te O6

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