共查询到16条相似文献,搜索用时 125 毫秒
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从自旋扩散方程和欧姆定律出发研究了铁磁层到有机半导体的自旋注入,得到了系统的电流自旋极化率。有机半导体中的载流子为自旋极化子和不带自旋的双极化子,极化子比率在有机半导体内随输运距离变化。通过计算发现匹配的铁磁和有机半导体电导率有利于自旋注入;通过调节界面电阻自旋相关性,电流自旋极化率可获得很大程度提高;极化子比率衰减速率对有机半导体电流自旋极化率具有非常重要的影响。 相似文献
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根据有机半导体中的电流自旋极化注入和输运实验现象,理论上研究了铁磁/有机半导体/铁磁系统的电流自旋极化性质.考虑到有机半导体的具体特性,从自旋扩散理论和欧姆定律出发,得到了系统的电流自旋极化率.假设自旋极化子和不带自旋的双极化子为有机半导体中的载流子.通过计算发现,极化子为实现有机半导体中电流极化注入和输运的有效自旋载流子,即使它只占总载流子很少一部分.还进一步研究了自旋相关界面电阻和电导率匹配以及有机半导体长度等因素对系统电流自旋极化的影响.
关键词:
自旋电子学
自旋注入
有机半导体
极化子 相似文献
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理论研究了铁磁/有机半导体肖特基接触时的电流自旋极化注入,并讨论了电流自旋极化率随界面处肖特基势垒高度、有机半导体层中特殊载流子及其迁移率、界面附近掺杂浓度的变化关系.通过计算发现,寻找在势垒区中载流子迁移率比较大的有机半导体材料对实现有效的自旋注入是必要的;同时还发现,由于铁磁/有机半导体接触而形成的肖特基势垒不利于自旋注入.因此要想实现有效的自旋注入,界面附近必须采用重掺杂来有效减少势垒区的宽度,且势垒的高度要限制在一定的范围内. 相似文献
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文中用一维紧束缚模型描述铁磁金属,用一维非简并的Su-Schrieffer -Heeger (SSH)模型描述共轭聚合物,研究了在一维铁磁/共轭聚合物系统和一维CMR材料/ 聚合物系统中的电子转移和自旋转移.发现在聚合物部分没有自旋的双极化子比有自旋的极化子具有较低的能量而容易产生.然而在铁磁CMR材料/聚合物系统中极化子的产生能低于聚合物中极化子的产生能,增加了有机物中自旋极化输运的可能性. 相似文献
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研究了两端具有铁磁接触的对称抛物势阱磁性隧道结(F/SPW/F)中自旋相关的隧穿概率和隧穿磁电阻,讨论了量子尺寸效应和Rashba 自旋轨道耦合作用对自旋极化输运特性的影响.研究结果表明:隧穿概率和隧穿磁电阻随抛物势阱宽度的增加发生周期性的振荡.抛物势阱深度的增加减小了隧穿概率和隧穿磁电阻的振荡频率.Rashba 自旋轨道耦合强度的增加加大了隧穿概率和隧穿磁电阻的振荡频率.隧穿概率和隧穿磁电阻的振幅和峰谷比强烈依赖于两铁磁电极中磁化方向的夹角.
关键词:
磁性隧道结
Rashba 自旋轨道耦合
隧穿概率
隧穿磁电阻 相似文献
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导电聚合物中的元激发稳定性问题对于认识和理解有机材料中的自旋极化输运现象是极其重要的.针对目前存在的极化子与双极化子之间的争论,本文从半经验的Austin Model 1(AM1)方法出发,对齐分子噻吩的掺杂态进行了研究.通过对极化子和双极化子体系能量的比较,发现双极化子可以转换为极化子,从而揭示出在有机半导体材料中可以实现自旋极化输运. 相似文献
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Effect of Carrier Differences on Spin Polarized Injection into Organic and Inorganic Semiconductors
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Spin polarized injection into organic and inorganic semiconductors are studied theoretically from the spin diffusion theory and Ohm's law, and the emphases are placed on the effect of the carrier differences on the current spin polarization. The mobility and the spin-flip time of carriers in organic and inorganic semiconductors are different. From the calculation, it is found that current spin polarization at a ferromagnetic/organic interface is higher than that at a ferromagnetic/inorganic interface because of different carriers in them. Effects of the conductivity matching, the spin dependent interracial resistances, and the bulk spin polarization of the ferromagnetic layer on the spin polarized injection are also discussed. 相似文献
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Charge carriers in organic semiconductor are different from that oftraditional inorganic semiconductor. Based on three-current model,considering electrical field effect, we present a theoretical model todiscuss spin-polarized injection from ferromagnetic electrode into organicsemiconductor by analyzing electrochemical potential both in ferromagneticelectrode and organic semiconductors. The calculated result of this modelshows effects of electrode's spin polarization, equilibrium value ofpolarons ratio, interfacial conductance, bulk conductivity of materials andelectrical field. It is found that we could get decent spin polarizationwith common ferromagnetic electrode by increasing equilibrium value ofpolarons ratio. We also find that large and matched bulk conductivity oforganic semiconductor and electrode, small spin-dependent interfacialconductance, and enough large electrical field are critical factors forincreasing spin polarization. 相似文献
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The effects of electric and magnetic fields on the current spin polarization and magnetoresistance in a ferromagnetic/organic semiconductor/ferromagnetic(FM/OSC/FM) system
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From experimental results of spin polarized injection and transport in organic semiconductors(OSCs),we theoretically study the current spin polarization and magnetoresistance under an electric and a magnetic field in a ferromagnetic/organic semiconductor/ferromagnetic(FM/OSC/FM) sandwich structure according to the spin drift-diffusion theory and Ohm’s law.From the calculations,it is found that the interfacial current spin polarization is enhanced by several orders of magnitude through tuning the magnetic and electric fields by taking into account the specific characteristics of OSC.Furthermore,the effects of the electric and magnetic fields on the magnetoresistance are also discussed in the sandwich structure. 相似文献
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Effect of Electric Field on Spin Polarized Current in Ferromagnetic/Organic Semiconductor Systems
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Considering the special carriers in organic semiconductors, the spin polarized current under electric field in a ferromagnetic/organic semiconductor system is theoretically studied. Based on the spin-diffusion theory, the current spin polarization under the electric field is obtained. It is found that electric field can enhance the current spin polarization. 相似文献
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《Current Applied Physics》2009,9(5):919-924
Different from electrons and holes in traditional inorganic semiconductors, the charge carriers in polymer semiconductors are spin polarons and spinless bipolarons. In this paper, a theoretical model is presented to describe the spin-polarized injection of electrical currents from a ferromagnetic contact into a nonmagnetic polymer semiconductor. In this model, a new relation of conductivity to concentration polarization for polymer semiconductors is introduced based on a three-channel model to describe the spin-polarized injection of electrical currents under large electrical current densities. The calculated results of the model reveal the effects of the polaron ratio, the carrier concentration polarization, the interfacial conductance, the bulk conductivity of materials, and the electrical current density, etc. on the spin polarization of electrical currents. As conclusions, the large and matched bulk conductivity of materials, the small spin-dependent interfacial conductance, the thin polymer thickness and the large enough electrical current are critical factors for upgrading the spin polarization of electrical currents in polymer semiconductors. Particularly, when the polaron ratio in polymer semiconductors approaches the concentration polarization of the ferromagnetic contact, a modest concentration polarization is sufficient for achieving a nearly complete spin-polarized injection of electrical currents. 相似文献
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稀磁半导体--自旋和电荷的桥梁 总被引:5,自引:0,他引:5
稀磁半导体可能同时利用载流子的自旋和电荷自由度构造将磁、电集于一体的半导体器件.尤其是铁磁半导体材料的出现带动了半导体自旋电子学的发展.室温铁磁半导体材料的制备,半导体材料中有效的自旋注入,以及自旋在半导体结构中输运和操作已成为目前半导体自旋电子学领域中的热门课题.稀磁半导体呈现出强烈的自旋相关的光学性质和输运性质,这些效应为人们制备半导体自旋电子学器件提供了物理基础. 相似文献