Magnetic scattering and spin-orbit coupling induced magnetoresistance in nonmagnetic heavy metal and magnetic insulator bilayer systems

B. F. Miao; L. Sun; D. Wu; C. L. Chien; H. F. Ding

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Magnetic scattering and spin-orbit coupling induced magnetoresistance in nonmagnetic heavy metal and magnetic insulator bilayer systems

机译：非磁性重金属和磁性绝缘体双层系统中的磁散射和自旋轨道耦合感应磁阻

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We report on the experimental study of the angular dependent magnetoresistance (MR) of heavy metal/ferromagnetic insulator bilayer structures. Through altering the relative composition in heavy metal Pt_δTa_(1-δ) alloy, we continuously tune its spin Hall angle from positive, crossing zero, and to negative and study its impact on the MR. Most notably, both spin Hall effect and MR disappear simultaneously in Pt_(0.32)Ta_(0.68) (3 nm)/YIG when the effective spin Hall angle vanishes, evidencing the essential role of spin-orbit coupling in heavy metal for the MR. By introducing Fe impurities, we further identify that magnetic scattering is also essential to induce the MR in Pt/Fe-doped SiO_2 at large magnetic field, where the MR ratio increases monotonically with doping level.

机译：我们报告了重金属/铁磁绝缘体双层结构的角度相关磁阻（MR）的实验研究。通过改变重金属Pt_δTa_（1-δ）合金的相对组成，我们不断地将其自旋霍尔角从正，零交叉调整为负，并研究其对MR的影响。最值得注意的是，当有效自旋霍尔角消失时，自旋霍尔效应和MR在Pt_（0.32）Ta_（0.68）（3 nm）/ YIG中同时消失，这证明了自旋轨道耦合在重金属中对于MR的重要作用。通过引入铁杂质，我们进一步发现，在大磁场下，磁散射对于在Pt / Fe掺杂的SiO_2中感应MR也是必不可少的，其中MR比随掺杂水平单调增加。

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来源
《Physical review》 |2016年第17期|174430.1-174430.6|共6页
作者
B. F. Miao; L. Sun; D. Wu; C. L. Chien; H. F. Ding;
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National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, 22 Hankou Road, Nanjing 210093,People's Republic of China;

National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, 22 Hankou Road, Nanjing 210093,People's Republic of China,Collaborative Innovation Center of Advanced Microstructures, Nanjing University, 22 Hankou Road, Nanjing 210093,People's Republic of China;

National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, 22 Hankou Road, Nanjing 210093,People's Republic of China,Collaborative Innovation Center of Advanced Microstructures, Nanjing University, 22 Hankou Road, Nanjing 210093,People's Republic of China;

Department of Physics and Astronomy, Johns Hopkins University, Baltimore, Maryland 21218, USA;

National Laboratory of Solid State Microstructures and Department of Physics, Nanjing University, 22 Hankou Road, Nanjing 210093,People's Republic of China,Collaborative Innovation Center of Advanced Microstructures, Nanjing University, 22 Hankou Road, Nanjing 210093,People's Republic of China;

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1. Magnetic scattering and spin-orbit coupling induced magnetoresistance in nonmagnetic heavy metal and magnetic insulator bilayer systems [J] . Miao B. F., Sun L., Wu D., Physical review, B . 2016,第17期

机译：非磁性重金属和磁绝缘体双层系统中的磁散射和自旋轨道耦合感应磁阻
2. Magnetoresistance and Interlayer Exchange Coupling in Ferromagnetic/Nonmagnetic/Insulator(Semiconductor)/Ferromagnetic Tunnel Junctions [J] . 张武寿, 李伯臧中国物理快报：英文版 . 1998,第004期

机译：铁磁性/非磁性/绝缘子（半导体）/铁磁隧道连接中的磁阻和层间交换耦合
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机译：具有强自旋轨道耦合的表面上的磁性和非磁性杂质的散射
4. Hall Effect induced by Spin-Wave excitation in Metal/Ferromagnetic Insulator bilayer [C] . Anatoly Vedyayev, Mikhail Zhuravlev, Maria Titova, Moscow International Symposium on Magnetism . 2015

机译：金属/铁磁绝缘体双层旋转波激发诱导的霍尔效应
5. Ferromagnetic Resonance and Spin Hall Torque for Nanometric Thick Magnetic Insulator |Normal Metal Bilayers System [D] . Alyahyaei, Hamad. 2014

机译：纳米厚电磁绝缘体的铁磁共振和自旋霍尔转矩|普通金属双层系统
6. Observation of spin-orbit magnetoresistance in metallic thin films onmagnetic insulators [O] . Lifan Zhou, Hongkang Song, Kai Liu, 2018

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7. Magnetoresistance generated from charge-spin conversion by anomalous Hall effect in metallic ferromagnetic/nonmagnetic bilayers [O] . Taniguchi, Tomohiro 2016

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Magnetic scattering and spin-orbit coupling induced magnetoresistance in nonmagnetic heavy metal and magnetic insulator bilayer systems

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