Tunable Sign Change of Spin Hall Magnetoresistance in Pt/NiO/YIG Structures

Dazhi Hou; Zhiyong Qiu; Joseph Barker; Koji Sato; Kei Yamamoto; Saül Vélez; Juan M. Gomez-Perez; Luis E. Hueso; Fèlix Casanova; Eiji Saitoh

doi:10.1103/PhysRevLett.118.147202

Tunable Sign Change of Spin Hall Magnetoresistance in Pt/NiO/YIG Structures

Dazhi Hou, Zhiyong Qiu, Joseph Barker, Koji Sato, Kei Yamamoto, Saül Vélez, Juan M. Gomez-Perez, Luis E. Hueso, Fèlix Casanova, Eiji Saitoh

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

109 Citations (Scopus)

Abstract

Spin Hall magnetoresistance (SMR) has been investigated in Pt/NiO/YIG structures in a wide range of temperature and NiO thickness. The SMR shows a negative sign below a temperature that increases with the NiO thickness. This is contrary to a conventional SMR theory picture applied to the Pt/YIG bilayer, which always predicts a positive SMR. The negative SMR is found to persist even when NiO blocks the spin transmission between Pt and YIG, indicating it is governed by the spin current response of the NiO layer. We explain the negative SMR by the NiO "spin flop" coupled with YIG, which can be overridden at higher temperature by positive SMR contribution from YIG. This highlights the role of magnetic structure in antiferromagnets for transport of pure spin current in multilayers.

Original language	English
Article number	147202
Journal	Physical review letters
Volume	118
Issue number	14
DOIs	https://doi.org/10.1103/PhysRevLett.118.147202
Publication status	Published - 2017 Apr 3

ASJC Scopus subject areas

Physics and Astronomy(all)

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10.1103/PhysRevLett.118.147202

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title = "Tunable Sign Change of Spin Hall Magnetoresistance in Pt/NiO/YIG Structures",

abstract = "Spin Hall magnetoresistance (SMR) has been investigated in Pt/NiO/YIG structures in a wide range of temperature and NiO thickness. The SMR shows a negative sign below a temperature that increases with the NiO thickness. This is contrary to a conventional SMR theory picture applied to the Pt/YIG bilayer, which always predicts a positive SMR. The negative SMR is found to persist even when NiO blocks the spin transmission between Pt and YIG, indicating it is governed by the spin current response of the NiO layer. We explain the negative SMR by the NiO {"}spin flop{"} coupled with YIG, which can be overridden at higher temperature by positive SMR contribution from YIG. This highlights the role of magnetic structure in antiferromagnets for transport of pure spin current in multilayers.",

author = "Dazhi Hou and Zhiyong Qiu and Joseph Barker and Koji Sato and Kei Yamamoto and Sa{\"u}l V{\'e}lez and Gomez-Perez, {Juan M.} and Hueso, {Luis E.} and F{\`e}lix Casanova and Eiji Saitoh",

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T1 - Tunable Sign Change of Spin Hall Magnetoresistance in Pt/NiO/YIG Structures

AU - Hou, Dazhi

AU - Qiu, Zhiyong

AU - Barker, Joseph

AU - Sato, Koji

AU - Yamamoto, Kei

AU - Vélez, Saül

AU - Gomez-Perez, Juan M.

AU - Hueso, Luis E.

AU - Casanova, Fèlix

AU - Saitoh, Eiji

PY - 2017/4/3

Y1 - 2017/4/3

N2 - Spin Hall magnetoresistance (SMR) has been investigated in Pt/NiO/YIG structures in a wide range of temperature and NiO thickness. The SMR shows a negative sign below a temperature that increases with the NiO thickness. This is contrary to a conventional SMR theory picture applied to the Pt/YIG bilayer, which always predicts a positive SMR. The negative SMR is found to persist even when NiO blocks the spin transmission between Pt and YIG, indicating it is governed by the spin current response of the NiO layer. We explain the negative SMR by the NiO "spin flop" coupled with YIG, which can be overridden at higher temperature by positive SMR contribution from YIG. This highlights the role of magnetic structure in antiferromagnets for transport of pure spin current in multilayers.

AB - Spin Hall magnetoresistance (SMR) has been investigated in Pt/NiO/YIG structures in a wide range of temperature and NiO thickness. The SMR shows a negative sign below a temperature that increases with the NiO thickness. This is contrary to a conventional SMR theory picture applied to the Pt/YIG bilayer, which always predicts a positive SMR. The negative SMR is found to persist even when NiO blocks the spin transmission between Pt and YIG, indicating it is governed by the spin current response of the NiO layer. We explain the negative SMR by the NiO "spin flop" coupled with YIG, which can be overridden at higher temperature by positive SMR contribution from YIG. This highlights the role of magnetic structure in antiferromagnets for transport of pure spin current in multilayers.

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Tunable Sign Change of Spin Hall Magnetoresistance in Pt/NiO/YIG Structures

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