Magnons and Phonons Optically Driven out of Local Equilibrium in a Magnetic Insulator

Kyongmo An; Kevin S. Olsson; Annie Weathers; Sean Sullivan; Xi Chen; Xiang Li; Luke G. Marshall; Xin Ma; Nikita Klimovich; Jianshi Zhou; Li Shi; Xiaoqin Li

doi:10.1103/PhysRevLett.117.107202

Magnons and Phonons Optically Driven out of Local Equilibrium in a Magnetic Insulator

Kyongmo An, Kevin S. Olsson, Annie Weathers, Sean Sullivan, Xi Chen, Xiang Li, Luke G. Marshall, Xin Ma, Nikita Klimovich, Jianshi Zhou, Li Shi^*, Xiaoqin Li

^*Corresponding author for this work

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

49 Citations (Scopus)

Abstract

The coupling and possible nonequilibrium between magnons and other energy carriers have been used to explain several recently discovered thermally driven spin transport and energy conversion phenomena. Here, we report experiments in which local nonequilibrium between magnons and phonons in a single crystalline bulk magnetic insulator, Y3Fe5O12, has been created optically within a focused laser spot and probed directly via micro-Brillouin light scattering. Through analyzing the deviation in the magnon number density from the local equilibrium value, we obtain the diffusion length of thermal magnons. By explicitly establishing and observing local nonequilibrium between magnons and phonons, our studies represent an important step toward a quantitative understanding of various spin-heat coupling phenomena.

Original language	English
Article number	107202
Journal	Physical Review Letters
Volume	117
Issue number	10
DOIs	https://doi.org/10.1103/PhysRevLett.117.107202
Publication status	Published - 30 Aug 2016
Externally published	Yes

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title = "Magnons and Phonons Optically Driven out of Local Equilibrium in a Magnetic Insulator",

abstract = "The coupling and possible nonequilibrium between magnons and other energy carriers have been used to explain several recently discovered thermally driven spin transport and energy conversion phenomena. Here, we report experiments in which local nonequilibrium between magnons and phonons in a single crystalline bulk magnetic insulator, Y3Fe5O12, has been created optically within a focused laser spot and probed directly via micro-Brillouin light scattering. Through analyzing the deviation in the magnon number density from the local equilibrium value, we obtain the diffusion length of thermal magnons. By explicitly establishing and observing local nonequilibrium between magnons and phonons, our studies represent an important step toward a quantitative understanding of various spin-heat coupling phenomena.",

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AU - An, Kyongmo

AU - Olsson, Kevin S.

AU - Weathers, Annie

AU - Sullivan, Sean

AU - Chen, Xi

AU - Li, Xiang

AU - Marshall, Luke G.

AU - Ma, Xin

AU - Klimovich, Nikita

AU - Zhou, Jianshi

AU - Shi, Li

AU - Li, Xiaoqin

PY - 2016/8/30

Y1 - 2016/8/30

N2 - The coupling and possible nonequilibrium between magnons and other energy carriers have been used to explain several recently discovered thermally driven spin transport and energy conversion phenomena. Here, we report experiments in which local nonequilibrium between magnons and phonons in a single crystalline bulk magnetic insulator, Y3Fe5O12, has been created optically within a focused laser spot and probed directly via micro-Brillouin light scattering. Through analyzing the deviation in the magnon number density from the local equilibrium value, we obtain the diffusion length of thermal magnons. By explicitly establishing and observing local nonequilibrium between magnons and phonons, our studies represent an important step toward a quantitative understanding of various spin-heat coupling phenomena.

AB - The coupling and possible nonequilibrium between magnons and other energy carriers have been used to explain several recently discovered thermally driven spin transport and energy conversion phenomena. Here, we report experiments in which local nonequilibrium between magnons and phonons in a single crystalline bulk magnetic insulator, Y3Fe5O12, has been created optically within a focused laser spot and probed directly via micro-Brillouin light scattering. Through analyzing the deviation in the magnon number density from the local equilibrium value, we obtain the diffusion length of thermal magnons. By explicitly establishing and observing local nonequilibrium between magnons and phonons, our studies represent an important step toward a quantitative understanding of various spin-heat coupling phenomena.

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Magnons and Phonons Optically Driven out of Local Equilibrium in a Magnetic Insulator

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