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三维拓扑绝缘体antidot阵列结构中的磁致输运研究
引用本文:敬玉梅,黄少云,吴金雄,彭海琳,徐洪起. 三维拓扑绝缘体antidot阵列结构中的磁致输运研究[J]. 物理学报, 2018, 67(4): 47301-047301. DOI: 10.7498/aps.67.20172346
作者姓名:敬玉梅  黄少云  吴金雄  彭海琳  徐洪起
作者单位:1. 北京大学电子学系, 纳米器件物理与化学教育部重点实验室, 量子器件北京市重点实验室, 北京 100871;2. 北京大学化学与分子工程学院, 分子动态与稳态结构国家重点实验室, 北京分子科学国家实验室, 纳米化学研究中心, 北京 100871
基金项目:国家重点基础研究发展计划(批准号:2016YFA0300601,2016YFA0300802,2017YFA0303304,2017YFA0204901)和国家自然科学基金(批准号:91221202,91421303,11274021)资助的课题.
摘    要:利用聚焦离子束刻蚀技术在拓扑绝缘体Bi_2Se_3薄膜中刻蚀了纳米尺度的反点(antidot)阵列,并对制作的三个器件进行了系统的电学输运测量研究.低温下,所有器件中都观察到明显的弱反局域化效应.通过对弱反局域化效应的分析,发现器件一(Dev-1,不含有antidot阵列)和器件二(Dev-2,含有周期较大的antidot阵列)是始终由一个导电通道主导的量子输运系统,但在器件三(Dev-3,含有周期较小的antidot阵列)中能明确观察到较低温度下存在两个独立的导电通道,而在较高温度下Dev-3表现为由一个导电通道主导的量子输运系统.

关 键 词:拓扑绝缘体  antidot阵列  弱反局域化
收稿时间:2017-10-30

Magnetotransport in antidot arrays of three-dimensional topological insulators
Jing Yu-Mei,Huang Shao-Yun,Wu Jin-Xiong,Peng Hai-Lin,Xu Hong-Qi. Magnetotransport in antidot arrays of three-dimensional topological insulators[J]. Acta Physica Sinica, 2018, 67(4): 47301-047301. DOI: 10.7498/aps.67.20172346
Authors:Jing Yu-Mei  Huang Shao-Yun  Wu Jin-Xiong  Peng Hai-Lin  Xu Hong-Qi
Affiliation:1. Beijing Key Laboratory of Quantum Devices, Key Laboratory for the Physics and Chemistry of Nanodevices, and Department of Electronics, Peking University, Beijing 100871, China;2. Center for Nanochemistry, Beijing National Laboratory for Molecular Sciences(BNLMS, College of Chemistry and Molecular Engineering, Peking University, Beijing 100871, China
Abstract:Three-dimensional topological insulators are a new kind of quantum matter featured with gapless Dirac-like energy-dispersive surface states in the insulating bulk band gaps. However, in experiment, it is difficult to study quantum interference effect of surface states due to considerable contribution from bulk carriers in thick bulk material. To suppress such a bulk state contribution, nanostructures, such as ultra-thin films, nanowires and nanoribbons, have been employed in the study of quantum interference effects of the surface states. Here, we report on a magnetotransport measurement study of nanoscaled antidot array devices made from three-dimensional topological insulator Bi2Se3 thin films. The antidot arrays with hundreds of nanometers in diameter and edge-to-edge distance are fabricated in the thin films by utilizing the focused-ion beam technique, and the magnetotransport properties of the fabricated devices are measured at low temperatures. The results of the magnetotransport measurements for three representative devices, denoted as Dev-1 (with no antidot array fabricated), Dev-2 (with an antidot array of a relatively large period), and Dev-3 (with an antidot array of a relatively small period), are reported in this work. Weak anti-localization indicated by a sharp peak of conductivity at zero magnetic field is observed in all the three devices. Through theoretical fitting to the measurement data, the transport parameters in the three devices, such as spin-orbit coupling length Lso, phase coherence length Lφ, and the number of conduction channels α, are extracted. The extracted Lso value is tens of nanometers, which is consistent with the presence of the strong spin-orbit interaction in the Bi2Se3 thin film. The extracted Lφ value is hundreds of nanometers and increases exponentially with temperature decreasing. It is found that the magnetotransports in Dev-1 and Dev-2 are well characterized by the coherent transport through a single conduction channel. For Dev-3, the magnetotransport at low temperatures is described by the coherent transport through two independent conduction channels, while at elevated temperatures the magnetotransport is dominantly described by the transport through one single conduction channel. Unlike the case where the transport occurs dominantly through a single conduction channel, the transport through two independent conduction channels in Dev-3 implies that at least one surface channel is present in the device.
Keywords:topological insulator  antidot array  weak anti-localization
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