共查询到19条相似文献,搜索用时 156 毫秒
1.
在低温强磁场条件下,对In0.53Ga0.47As/In0.52Al0.48As量子阱中的二维电子气进行了磁输运测试.在低磁场范围内观察到正磁电阻效应,在高磁场下这一正磁电阻趋于饱和,分析表明这一现象与二维电子气中的电子占据两个子带有关.在考虑了两个子带之间的散射效应后,通过分析低磁场下的正磁电阻,得到了每个子带电子的迁移率,结果表明第二子带电子的迁移率高于第一子带电子的迁移率.进一步分析表明,这主要是由两个子带之间的
关键词:
二维电子气
正磁电阻
子带散射 相似文献
2.
在低温强磁场条件下,对In0.53 Ga0.47 As/In0.52AI0.48As量子阱中的二维电子气进行了磁输运测试.在低磁场范围内观察到正磁电阻效应,在高磁场下这一正磁电阻趋于饱和,分析表明这一现象与二维电子气中的电子占据两个子带有关.在考虑了两个子带之间的散射效应后,通过分析低磁场下的正磁电阻,得到了每个子带电子的迁移率,结果表明第二子带电子的迁移率高于第一子带电子的迁移率.进一步分析表明,这主要是由两个子带之间的散射引起的. 相似文献
3.
在掺Si的GaAs/AlGaAs二维电子气(2DEG)结构中,得到μ2K=1.78×106cm2/(V·s)的高迁移率.在低温(2K)和高磁场(6T)的条件下,对样品进行红 光辐照,观察到持久光电导(PPC)效应,电子浓度在光照后显著增加.通过整数量子霍尔效应 (IQHE)和Shubnikov-de Haas (SdH)振荡的测量,研究了2DEG的子带电子特性.样品在低温光 照后2DEG中第一子带和第二子带的电子浓度同时随电子总浓度的增加而增加;而且电子迁移 率也明显提高.同时,通过整数霍尔平台的宽度对光照前后电子的量子寿命变短现象作了理 论分析.
关键词:
二维电子气
量子霍尔效应
SdH振荡
持久光电导效应 相似文献
4.
采用化学气相输运的方法生长了一系列的MPS_3(M=Mn,Fe,Ni)单晶样品.X射线衍射和电子能谱测试结果表明生长出来的样品是纯相并且单晶质量较好.MPS_3单晶样品在低温下均为反铁磁性.当磁场平行于面内时,磁化率—温度曲线在奈尔点以上存在一个较宽的峰值,可能与准二维磁交换导致的短程序有关.这些现象表明MPS_3体系是一个很好的研究二维材料磁性的平台.此前理论与实验结果显示该体系具有宽带隙,电阻率也很大.因此,MPS_3体系在二维层状材料介电方面有很大的应用前景. 相似文献
5.
在变缓冲层高迁移率晶体管(MM_HEMT)器件中,二维电子气的输运性质对器件性能起着决定作用.通过低温下二维电子气横向电阻的量子振荡现象,结合变温度的Hall测量,系统研究了不同In组分沟道MM_HEMT器件中子带电子迁移率和浓度随温度的变化关系.结果表明,沟道中In组分为0.65的样品,材料电学性能最好,In组分高于0.65的样品,严重的晶格失配将产生位错,引起迁移率下降,大大影响材料和器件的性能.
关键词:
变缓冲层高迁移率晶体管
Shubnikov_de Hass 振荡 相似文献
6.
在1.5K低温和0~9T的高磁场下研究了AlGaG/GaN异质结二维电子气的磁输运性质.实验结果在4块样品中都观察到了Shubnikov-da HaSS振荡的双周期行为.表明异质结的三角势阱中有两个子带被电子占据.通过电子子带占据时电子浓度分配的线形行为得到第二子带被占据的阈值浓度为7.2×1012cm-2.通过对不同样品量子散射时间和输运迁移率的研究,说明在1.5K下远程离化施主散射在量子散射时间中起主要作用. 相似文献
7.
8.
研究了不同沟道厚度的In0.53Ga0.47As/In0.52Al0.48As量子阱中双子带占据的二维电子气的输运特性.在考虑了两个子带电子之间的磁致子带间散射效应后,通过分析Shubnikov-de Haas振荡一阶微分的快速傅里叶变换结果,获得了每个子带电子的浓度、输运散射时间、量子散射时间以及子带之间的散射时间.结果表明,对于所研究的样品,第一子带电子受到的小角散射更强,这与第一子带电子受到了更强的电离杂质散射有
关键词:
二维电子气
散射时间
自洽计算 相似文献
9.
通过单晶生长了Cd组分为0.1的p型HgCdTe体材料,并制备了具有倒置型能带序的HgCdTe场效应器件.通过磁输运测试,在负带隙HgCdTe体材料中观察到明显的量子霍尔平台效应和Shubnikov-de Haas(SdH)振荡效应,证明样品具有较好的质量.利用SdH振荡对1/B关系的快速傅里叶变换,得到了样品的零场自旋分裂能约为26.55 meV,证明样品中存在强自旋-轨道耦合作用.进一步分析SdH中的拍频节点估算了样品中的有效g因子约为–11.54. 相似文献
10.
11.
We report a transport study of exfoliated few monolayer crystals of topological insulator Bi2Se3 in an electric field effect geometry. By doping the bulk crystals with Ca, we are able to fabricate devices with sufficiently low bulk carrier density to change the sign of the Hall density with the gate voltage V(g). We find that the temperature T and magnetic field dependent transport properties in the vicinity of this V(g) can be explained by a bulk channel with activation gap of approximately 50 meV and a relatively high-mobility metallic channel that dominates at low T. The conductance (approximately 2×7e2/h), weak antilocalization, and metallic resistance-temperature profile of the latter lead us to identify it with the protected surface state. The relative smallness of the observed gap implies limitations for electric field effect topological insulator devices at room temperature. 相似文献
12.
ZhiXin Liu Ying Xiang Guan-Yu Chen Wei Xie Huan Yang XiYu Zhu Hai-Hu Wen 《中国科学:物理学 力学 天文学(英文版)》2019,(9)
The lightly Sn-doped Bi_(1.1)Sb_(0.9)Te_2S is a good material to investigate the pure topological surface state because the bulk bands are far away from the Fermi level. By measuring point-contact tunneling spectra on the topological insulator Bi_(1.08)Sn_(0.02)Sb_(0.9)Te_2S samples with a superconducting Nb tip, we observed the suppression of differential conductance near zero bias, instead of the enhancement due to Andreev reflection on the spectra. The fitting to the measured spectrum results in a superconducting gap of more than 4 meV, and this value is much larger than the superconducting gap of the bulk Nb. The gaped feature exists at temperatures even above the critical temperature of bulk Nb, and is visible when the magnetic field is as large as 9 T at 3 K. We argue that such behaviors may be related to the pressure induced superconductivity by the tip in the junction area, or just some novel phenomena arising from the junction between an s-wave superconductor and an ideal topological insulator. 相似文献
13.
由于MnBi2Te4电子结构具有对晶格常数的改变相当敏感的特性,本文采用基于密度泛函理论的第一性原理方法对MnBi2Te4反铁磁块体的电子结构施加等体积应变调控.研究发现体系能带结构在材料等体积拉伸和压缩作用下变化灵敏,体系出现绝缘体-金属相变.特别地,当施加特定应变后导带和价带在Γ处出现交叉,体系呈零带隙状态.在此应变下仍可观察到能带反转的现象,具有非平庸的能带拓扑性质.根据不同应变下的电荷密度图,发现等体积应变会影响体系七倍层层间距,其中等体积压缩和拉伸应变可分别增大和减小Te原子层间距,表明等体积压缩有利于降低反铁磁层间耦合.通过等体积压力应变调控,掌握了MnBi2Te4的电子结构的变化规律,这对本征磁性拓扑绝缘体MnBi2Te4的物性研究和实验制备具有重要的指导意义. 相似文献
14.
《中国物理 B》2019,(10)
SmB_6, a topological Kondo insulator, with a gapped bulk state and metallic surface state has aroused great research interest. Here, we report an exotic hysteresis behavior of magnetoresistance in individual SmB_6 nanowire in a temperature range in which both surface and bulk states contribute to the total conductance. Under a magnetic field parallel to the SmB_6 nanowire, the resistance suddenly increases at the turning point from up-sweep to down-sweep of the magnetic field. The magnetoresistance hysteresis loops are well consistent with the magnetocaloric effect. Our results suggest that the SmB_6 nanowires possess potential applications in the magnetic cooling technology. 相似文献
15.
Topological insulator is a new state of quantum matter. When applied magnetic field is applied on a topological insulator, not only the magnetic field is induced, but also the electric field is induced, vice versa. We designed bi-layer magnetic cloak with topological insulator and high permeability material (HPM), derived the electric field and magnetic field inside and outside the bi-layer topological insulator and HPM. Calculation and simulation results show that the applied magnetic field is cloaked by the bi-layer topological insulator and HPM, and the uniform electric field is induced in the cloaked region. 相似文献
16.
通过改变温度和磁场方向对调制掺杂的n型Hg0.82Cd0.16Mn0.02Te/Hg0.3Cd0.7Te第一类量子阱中磁性二维电子气磁阻拍频振荡进行了深入的研究,发现不仅温度的变化能够引起磁阻拍频节点位置的变化. 而且改变磁场方向,可以分别调整塞曼分裂和朗道分裂. 从对拍频的分析中,可以将依赖于磁场垂直方向的朗道能级分裂和依赖于整个磁场大小的塞曼分裂区分开来.
关键词:
磁性二维电子气
自旋分裂
塞曼分裂
拍频 相似文献
17.
We propose a scheme for a topological insulator field effect transistor. The idea is based on the gate voltage control of the Dirac fermions in a ferromagnetic topological insulator channel with perpendicular magnetization connecting to two metallic topological insulator leads. Our theoretical analysis shows that the proposed device displays a switching effect with high on/off current ratio and a negative differential conductance with a good peak to valley ratio. 相似文献
18.
《Current Applied Physics》2007,7(4):338-341
The electrical transport properties of mesoscopic graphite have been investigated in a gate voltage configuration. Few layer graphene structures made from Kish graphite exhibit Shubnikov-de Haas (SdH) oscillations in magnetic fields up to 33 T, with a strong gate voltage dependence. A two band model can be used to explain the linear dependence of the SdH frequency on the gate voltage. The temperature dependence of the SdH oscillation amplitude allows the determination of the effective masses of the carriers, which remain comparable between mesoscopic and bulk graphite samples. However, mesoscopic graphite thinner than 130 nm does not exhibit the field induced charge density wave transition seen in bulk samples above 25 T at low temperatures. 相似文献
19.
用数值方法研究了拓扑绝缘体薄膜体系在外加垂直磁场 作用下其边缘态的性质. 磁场的加入通过耦合k+eA, 即Peierls势替换关系和 该作用导致的Zeeman交换场体现在哈密顿量中. 考虑窄条圆环状结构的二维InAs/GaSb/AlSb薄膜量子阱材料, 当其处于拓扑非平庸状态, 即量子自旋霍尔态时, 会出现受时间反演对称性保护的两支简并边缘态, 而在垂直磁场的作用下, 时间反演对称性被破坏, 这时能带将形成一条条的朗道能级, 原来简并的两支边缘态也会分开到朗道能级谱线的两侧, 从电子态密度的空间分布情况则可以看到边缘态分别局域在材料的两个边界. 随着磁场的增大, 位于同一边界上的不同 自旋极化的边缘态将出现分离: 一支仍然局域在边缘, 另一支则随外加磁场的增加而有逐渐演化到材料内部的趋势. 文中还计算了同一边界上的两支边缘态之间的散射, 结果表明由于两个边缘态在空间发生分离, 相互之间的散射被很大的压制, 得到了其散射随磁场增加没有明显变化的结论, 所以磁场并不会增强散射过程, 也没有破坏体拓扑材料的性质, 说明了量子自旋霍尔态在没有时间反演对称的情况下也可以有较强的稳定性. 相似文献