Lateral shift in a spin-orbit-coupling modulated magnetic-barrier nanostructure

Kong Yong-Hong; Liu Xu-Hui; Fu Xi; Li Ai-Hua

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Lateral shift in a spin-orbit-coupling modulated magnetic-barrier nanostructure

机译：旋转轨道耦合调制磁阻纳米结构的横向移位

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Spin-dependent Goos-Hanchen(GH)effect of the electron in a magnetic barrier nanostructure modulated by the spin-orbit coupling (SOC) is investigated. Two kinds of intrinsic SOCs (Rashba and Dresselhaus types) are taken into account, and spin-dependent lateral shifts are obtained by the transfer matrix method and the stationary phase approximation. The spin-dependent lateral shift is found to be related closely to the SOC. Both magnitude and sign of the spin-polarised lateral shift can be controlled by properly adjusting the strength of Rashba or Dresselhaus SOC. These interesting features can provide an alternative approach to manipulate spin-polarised electrons in the semiconductor, and such a nanostructure can serve as a controllable spatial spin splitter for spintronics applications.

机译：研究了通过旋转轨道耦合（SOC）调制的磁阻纳米结构中电子在磁阻纳米结构中的旋转依赖的GoOS-hanchen（GH）效应。考虑两种固有SOC（RASHBA和TEXTELHAUS类型），通过传递矩阵方法和固定相位近似获得自旋依赖性横向偏移。发现旋转依赖性横向移位与SoC密切相关。通过适当调整Rashba或Tresselhaus SoC的强度，可以控制旋转极化横向移位的幅度和符号。这些有趣的特征可以提供一种可替代方法来操纵半导体中的自旋极化电子，并且这种纳米结构可以用作用于熔融的应用的可控空间自旋分离器。

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来源
《Philosophical magazine: structure and properties of condensed matter 》 |2018年第12期| 共12页
作者
Kong Yong-Hong; Liu Xu-Hui; Fu Xi; Li Ai-Hua;
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作者单位

Hunan Univ Sci &

Engn Coll Sci Yongzhou Peoples R China;

Hunan Univ Sci &

Engn Coll Sci Yongzhou Peoples R China;

Hunan Univ Sci &

Engn Coll Sci Yongzhou Peoples R China;

Hunan Univ Sci &

Engn Coll Sci Yongzhou Peoples R China;

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原文格式 PDF
正文语种 eng
中图分类物理学 ;
关键词
Goos-Hanchen effect; magnetic nanostructure; spin-orbit couplings; lateral shift; spatial spin splitter;

机译：Goos-hanchen效果;磁性纳米结构;旋转轨道联轴器;横向移位;空间旋转分离器;

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专利

1. Lateral shift in a spin-orbit-coupling modulated magnetic-barrier nanostructure [J] . Kong Yong-Hong, Liu Xu-Hui, Fu Xi, Philosophical magazine: structure and properties of condensed matter . 2018 ,第7a12期

机译：旋转轨道耦合调制磁阻纳米结构的横向移位
2. Lateral shifts of spin electron beams in antiparallel double δ-magnetic-barrier nanostructure [J] . Yong-Hong Kong, Mao-Wang Lu, Sai-Yan Chen, Journal of magnetism and magnetic materials . 2012 ,第16期

机译：反平行双δ磁性势垒纳米结构中自旋电子束的横向位移
3. Lateral Shifts for Spin Electrons in a Hybrid Magnetic-Electric-Barrier Nanostructure Modulated by Spin-Orbit Couplings [J] . Tang Qiang, Lu Mao-Wang, Huang Xin-Hong, Journal of Superconductivity and Novel Magnetism . 2018 ,第5期

机译：通过旋转轨道联轴器调制的混合磁阻纳米结构中的旋转电子在旋转电子中的横向移位
4. Analysis of strain and composition distributions in laterally strain-modulated InGaAs nanostructures after overgrowth with GaAs or InGaP [C] . U Zeimer, H Kirmse, J Grenzer, Conference on microscopy of semiconducting materials . 2003

机译：高过度生长后横向菌株调节InGaAs纳米结构的应变和组成分布分析，GaAs或Ingap
5. Targeting Motor Neuron - Immune System Crosstalk to Modulate the Disease Progression in Amyotrophic Lateral Sclerosis Mouse Model [D] . Trolese, Maria Chiara. 2020

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6. Improved Water–Gas Shift Performance of Au/NiAl LDHs Nanostructured Catalysts via CeO [O] . Margarita Gabrovska, Ivan Ivanov, Dimitrinka Nikolova, 2021

机译：通过CEO改善Au / Nial LDHS纳米结构催化剂的水气移位性能
7. Spin separation and spin Hall effect in quantum wires due to lateral-confinement-induced spin-orbit-coupling [O] . Hattori Kiminori, Okamoto Hiroaki 2016

机译：横向约束引起的自旋轨道耦合导致量子线中的自旋分离和自旋霍尔效应

Lateral shift in a spin-orbit-coupling modulated magnetic-barrier nanostructure

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