Achieving Highly Localized Effective Magnetic Fields With Non-Uniform Rashba Spin-Orbit Coupling for Tunable Spin Current in Metal/Semiconductor/Metal Structures

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Achieving Highly Localized Effective Magnetic Fields With Non-Uniform Rashba Spin-Orbit Coupling for Tunable Spin Current in Metal/Semiconductor/Metal Structures

机译：利用非均匀Rashba自旋轨道耦合实现高度局部化的有效磁场，以调节金属/半导体/金属结构中的自旋电流

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We theoretically study the spin-dependent transport of conduction electrons across typical metal/semiconductor (SC)/metal structures, where the SC channel exhibits Rashba spin-orbit coupling (SOC) and the metal contacts do not. The spatial discontinuity of the Rashba SOC is shown to result in highly localized, effective magnetic field barriers at the device interfaces. As a result, electrons with oppositely polarized spins along the injection direction are found to be transmitted with different probabilities, resulting in a finite spin polarization. The value of the spin polarization depends sensitively on the Rashba SOC strength within the SC channel, which is well known to be adjustable by an applied gate bias. Thus the proposed structure could be useful as a tunable source of spin-polarized current in spintronic applications.

机译：我们从理论上研究了传导电子在典型的金属/半导体（SC）/金属结构上的自旋相关输运，其中SC通道表现出Rashba自旋轨道耦合（SOC），而金属接触却没有。 Rashba SOC的空间不连续性显示会在设备接口处产生高度局部的有效磁场屏障。结果，发现沿着注入方向具有相反极化自旋的电子以不同的概率传输，从而导致有限的自旋极化。自旋极化的值敏感地取决于SC通道内的Rashba SOC强度，众所周知，该强度可通过施加的栅极偏置来调节。因此，所提出的结构可用作自旋电子应用中自旋极化电流的可调源。

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《Magnetics, IEEE Transactions on》 |2010年第6期|p.1323-1326|共4页
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Semiconductor spintronics; spin injection; spin-orbit coupling;

机译：半导体自旋电子学;自旋注入;自旋轨道耦合;

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1. Impact of interfacial scattering on the spin polarization of a metal/semiconductor/metal with Rashba spin-orbit coupling junction [J] . Ka-oey A., Jantayod A., Pairor P. Physica, B. Condensed Matter . 2015,第Null期

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2. Contribution of the magnetic anisotropy to the current induced spin-orbit effective fields in the in-plane magnetized ferromagnetic metal and heavy metal multilayers [J] . Li Shufa, Zhu Tao Japanese journal of applied physics . 2020,第4期

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3. Infinite Spin Diffusion Length of Any Spin Polarization Along Direction Perpendicular to Effective Magnetic Field from Dresselhaus and Rashba Spin-Orbit Couplings with Identical Strengths in (001) GaAs Quantum Wells [J] . K. Shen, M. W. Wu Journal of Superconductivity and Novel Magnetism . 2009,第8期

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4. Spin Current in a GaAs 2DEG with the Coexistence of Rashba Spin-Orbit Coupling and Magnetic Field [C] . Xi Fu International conference on future control and automation;ICFCA 2012 . 2012

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5. Spin-orbit Coupling Effects in LaTiO3/SrTiO3 Heterostructures: From Giant Rashba-type Coupling to near Room-temperature Quantum Spin Hall Effect [D] . Veit, Michael J. 2019

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6. Highly gate-tuneable Rashba spin-orbit interaction in a gate-all-around InAs nanowire metal-oxide-semiconductor field-effect transistor [O] . K. Takase, Y. Ashikawa, G. Zhang, -1

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7. Spin-current-induced charge accumulation and electric current in semiconductor nanostructures with Rashba spin-orbit coupling [O] . Shen, SQ, Li, J 2007

机译：利用Rashba自旋轨道耦合的半导体纳米结构中的自旋电流诱导电荷积累和电流

Achieving Highly Localized Effective Magnetic Fields With Non-Uniform Rashba Spin-Orbit Coupling for Tunable Spin Current in Metal/Semiconductor/Metal Structures

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