共查询到19条相似文献,搜索用时 578 毫秒
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非磁/铁磁异质结构中存在很多有趣的演生现象,特别是,铂/铁磁异质结构中的反常霍尔效应是一个研究热点.采用脉冲激光沉积技术和射频磁控溅射技术制备出具有原子级接触界面的铂/锰酸锶镧异质结,并对异质结的电输运性能进行了系统的研究.实验发现,铂/锰酸锶镧异质结中存在由铂贡献的反常霍尔效应,这是由磁近邻效应诱导铂表现出铁磁性造成的.反常霍尔电阻随着温度的降低而急剧增加,并且在低于40 K时改变符号.反常霍尔电阻随铂厚度的增加而急剧降低,证实了铂的铁磁性起源于异质结界面.此外,异质结在低外加磁场下可能产生了拓扑霍尔效应,这是由异质结界面处的Dzyaloshinskii-Moriya相互作用诱导产生手性磁畴壁结构引起的.上述研究结果为进一步理解非磁/铁磁异质结构中的电子自旋和电荷输运之间的相互作用提供了实验基础. 相似文献
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在没有外加磁场的作用下就能表现出量子化霍尔电导的量子反常霍尔效应已经成为霍尔家族中的重要一员,其物理起源是体能带反转结构和铁磁性相互作用.量子反常霍尔效应最重要的表现是在边缘态处具有无耗散运动的手性电流,这种性质拥有可以改变未来量子电子学的潜力,极大推动器件小型化、低损耗、高速率发展.近年来,基于理论指导,人们在实验上已多次观察到量子反常霍尔效应.在本文中,从实验层面上重点回顾了量子反常霍尔效应在铬(Cr)、钒(V)掺杂的(Bi, Sb)2Te3体系的研究进展,以及目前量子反常霍尔效应在其它体系中的研究现状,深入理解量子反常霍尔效应的起源和机理,最后对量子反常霍尔效应进行总结和展望. 相似文献
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霍尔效应是凝聚态领域中古老却又极具潜力的研究领域,其起源可以追溯到数百年前. 1879年,霍尔发现将载流导体置于磁场中时,磁场带来的洛伦兹力将使得电子在导体的一侧积累,这一新奇的物理现象被命名为霍尔效应.之后,一系列新的霍尔效应被发现,包括反常霍尔效应、量子霍尔效应、自旋霍尔效应、拓扑霍尔效应和平面霍尔效应等.值得注意的是,霍尔效应能够实现不同方向的粒子流之间的相互转化,因此在信息传输过程中扮演着重要的角色.在玻色子体系(如磁子)中,相应的一系列磁子霍尔效应也被发现,他们共同推动了以磁子为基础的自旋电子学的发展.本文回顾了近年来在磁子体系中的霍尔效应,简述其现代半经典的处理方法,包括虚拟电磁场理论和散射理论等.并进一步介绍了磁子霍尔效应的物理起源,概述了不同类型磁子的霍尔效应.最后,对磁子霍尔效应的发展趋势进行了展望. 相似文献
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利用密度泛函理论对合金团簇(FeCr)n (n≤6)的几何结构、稳定性和磁性进行了系统的研究. 研究结果表明, 对n≤3的合金团簇, 其基态具有共线的反铁磁序; 而对于n≥4 的合金团簇, 其基态具有非共线磁序, 因此在n=4时体系发生了共线磁序向非共线磁序的“相变”. 此外, 虽然3d过渡金属原子中电子的自旋轨道耦合效应比较弱, 但计算结果表明对于某些小尺寸的合金团簇其轨道磁矩不能忽略. 对非共线磁性团簇的成键性质以及产生磁序“相变”的物理起源进行了详细讨论.
关键词:
n合金团簇')" href="#">(FeCr)n合金团簇
密度泛函理论
非共线磁序
自旋轨道耦合效应 相似文献
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亚铁磁材料因具有反铁磁排列的子晶格磁矩而表现出诸多丰富的物理性质,在磁信息存储和逻辑领域具有广阔的应用前景.本文采用磁控溅射方法在热氧化的硅基片上制备了Pt/GdFeCo(t)/Pt多层膜,系统研究了亚铁磁GdFeCo厚度对多层膜的表面形貌、结构、磁性以及反常霍尔效应(AHE)的影响.结构测试表明薄膜表面粗糙度较小,且GdFeCo层为非晶态;实验中利用GdFeCo层厚度可有效控制Gd元素含量,从而调控GdFeCo趋近反铁磁态特性的磁矩补偿点;通过重金属强自旋轨道耦合效应(SOC)和非晶态亚铁磁薄膜面内压应力,实现了良好垂直各向异性(PMA);进一步阐明了亚铁磁薄膜中磁性和反常霍尔效应的内在产生机制以及磁矩补偿点与温度的内在关系.这些结果为构建新一代低功耗自旋电子器件奠定基础. 相似文献
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Fe3GeTe2 是一种具有稳定长程磁有序的准二维范德瓦尔斯磁性材料, 范德瓦尔斯材料的稳定性和可调性使其在自旋电子器件的应用方面具有巨大潜力. 本文用助熔剂法生长了 Mg 原子掺杂Fe2 位的 Mg0.3Fe2.7GeTe2单晶样品, 并对 Mg 掺杂Fe3GeTe2 的结构、磁性和输运性质的影响进行了研究. 磁性数据表明 Mg 掺杂后铁磁转变温度不变, 但样品的饱和磁矩减小. 输运性质的测量中观察到各向异性的反常霍尔效应, 与Fe3GeTe2 相比, Mg掺杂后的反常霍尔电阻率减小, 同时各向异性发生了变化. 相似文献
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Controlling the anomalous Hall effect(AHE)inspires potential applications of quantum materials in the next generation of electronics.The recently discovered quasi-2D kagome superconductor CsV3Sb5 exhibits large AHE accompanying with the charge-density-wave(CDW)order which provides us an ideal platform to study the interplay among nontrivial band topology,CDW,and unconventional superconductivity.Here,we systematically investigated the pressure effect of the AHE in CsV3Sb5.Our high-pressure transport measurements confirm the concurrence of AHE and CDW in the compressed CsV3Sb5.Remarkably,distinct from the negative AHE at ambient pressure,a positive anomalous Hall resistivity sets in below 35 K with pressure around 0.75 GPa,which can be attributed to the Fermi surface reconstruction and/or Fermi energy shift in the new CDW phase under pressure.Our work indicates that the anomalous Hall effect in CsV3Sb5 is tunable and highly related to the band structure. 相似文献
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《中国科学:物理学 力学 天文学(英文版)》2020,(9)
Antiferromagnets(AFMs) with chiral noncollinear spin structure have attracted great attention in recent years. However, the existing research has mainly focused on hexagonal chiral AFMs, such as Mn_3Sn, Mn_3Ga, Mn_3Ge with low crystalline symmetry.Here, we present our systematical study for the face-centered cubic noncollinear antiferromagnetic Mn_3Pt. By varying the alloy composition(x), we have successfully fabricated antiferromagnetic Mn_(1-x)Pt_x epitaxial films on MgO substrates and have observed a crystalline structure transition from L1_0 MnPt to L1_2 Mn_3Pt. The Mn_3Pt exhibits a large anomalous Hall effect, which is in the same order of magnitude as those of ferromagnetic materials. Moreover, a large thickness-evolved strain effect is revealed in Mn_3Pt films by X-ray diffraction(XRD) analysis based on the Scherrer method. Our work explores Mn_3Pt as a promising candidate for topological antiferromagnetic spintronics. 相似文献
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R. K. Arslanov T. R. Arslanov M. I. Daunov 《Journal of Experimental and Theoretical Physics》2017,124(3):493-495
The dependences of the electrical resistivity and the Hall coefficient of single-crystal p-InAs〈Mn〉 bulk samples with an acceptor concentration of about 1018 cm–3 on uniform pressure P = 4–6 GPa at T = 300 K in the region of impurity conduction are quantitatively analyzed. The anomalous Hall effect is shown to occur in p-InAs〈Mn〉. Its contribution is negative and correlates with the deionization of acceptors and an increase in the magnetic susceptibility. 相似文献
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F.C. Frank 《物理学进展》2013,62(1):91-109
The article attempts to review the present stage of the density functional theory for noncollinear magnetic states and its application to particular physical problems. The discussion starts with basic theorems of the theory and derivation of the Kohn-Sham equation for a noncollinear magnet. Special features of solving this equation are illustrated using the augmented-spherical-wave method generalized to the noncollinear magnetic structures as an example. Particular attention is devoted to the symmetry of the problem. It is shown that a traditional approach of the space group theory fails in the case of a noncollinear magnetic state. A generalized approach based on the notion of the spin space groups is presented which allows a consequent treatment of the symmetry properties of both nonrelativistic and relativistic problems. This approach allows the development of an exact procedure for a first-principles calculation of an incommensurate spiral structure and gives a sound basis for the calculation and physical interpretation of the noncollinear magnetic structures caused by the effects of relativity. Application of the theory to the first-principles determination of the complex noncollinear magnetic structures of various systems are discussed. Applications include the spiral structure of fcc Fe, the uncompensated magnetic structure in U3X4 and compensated magnetic structure in U2P2Sn, and two different types of weak ferromagnetism in Fe2O3 and Mn3Sn. It is shown how the calculation technique can be applied to studies of unenhanced and enhanced non-uniform magnetic susceptibilities as well as susceptibilities in fields noncollinear to the atomic moments. Illustrating results of the calculation of the susceptibility of various systems are presented. The last part of the review is devoted to applications of the theory of noncollinear magnetism to studies of temperature effects in the electronic properties of itinerant magnets. 相似文献
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We present a theory of the anomalous Hall effect in ferromagnetic (III, Mn)V semiconductors. Our theory relates the anomalous Hall conductance of a homogeneous ferromagnet to the Berry phase acquired by a quasiparticle wave function upon traversing closed paths on the spin-split Fermi surface. The quantitative agreement between our theory and experimental data in both (In, Mn)As and (Ga, Mn)As systems suggests that this disorder independent contribution to the anomalous Hall conductivity dominates in diluted magnetic semiconductors. The success of this model for (III, Mn)V materials is unprecedented in the longstanding effort to understand origins of the anomalous Hall effect in itinerant ferromagnets. 相似文献
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The quantum Hall effect is usually observed when a two-dimensional electron gas is subjected to an external magnetic field, so that their quantum states form Landau levels. In this work we predict that a new phenomenon, the quantum anomalous Hall effect, can be realized in Hg{1-y}Mn{y}Te quantum wells, without an external magnetic field and the associated Landau levels. This effect arises purely from the spin polarization of the Mn atoms, and the quantized Hall conductance is predicted for a range of quantum well thickness and the concentration of the Mn atoms. This effect enables dissipationless charge current in spintronics devices. 相似文献
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Measurements of the Hall effect in CeAl2 have been performed between 1.5 K and 4.2 K under pressures up to 2 GPa. The temperature dependence of the Hall coefficient has been found to show increasingly distinct structure with rising pressure, which is obviously correlated to the magnetic ordering transition in this material. Under pressures exceeding about 1.6 GPa the Hall coefficient changes its sign in the temperature range under consideration. 相似文献
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V. V. Rylkov B. A. Aronzon A. S. Lagutin V. V. Podol’skii V. P. Lesnikov M. Goiran J. Galibert B. Raquet J. Léotin 《Journal of Experimental and Theoretical Physics》2009,108(1):149-158
We have studied the magnetotransport properties of p-InMnAs layers in strong (up to 30 T) pulsed magnetic fields. The p-InMnAs layers were obtained by laser plasma deposition with subsequent annealing by radiation of a pulsed ruby laser. Under anomalous Hall effect conditions in a strong magnetic field (above 20 T), the Hall resistance in the paramagnetic region of temperatures is greater than that in the ferromagnetic region (below 40 K). It has also been established that, at helium temperatures, the negative magnetoresistance exhibits saturation in a field of about 10 T, whereas the anomalous Hall effect is saturated at about 2 T. At T ≈ 4 K, the resistance in a field of 10 T exhibits a more than tenfold decrease. The results are explained by a mesoscopically inhomogeneous distribution of the acceptor (Mn) impurity, a local ferromagnetic transition, and a percolation character of the conductivity of p-InMnAs films in a state close to the insulator-metal phase transition. The characteristic scale of magnetoelectric inhomogeneity in the system is evaluated based on an analysis of mesoscopic fluctuations of the nondiagonal component of the magnetoresistance tensor. 相似文献