块状碲镉汞的量子霍尔效应和零高原

M. L. Savchenko, D. A. Kozlov, S. S. Krishtopenko, N. N. Mikhailov, Z. D. Kvon, A. Pimenov, D. Weiss
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引用次数: 0

摘要

量子霍尔效应表现出许多不寻常的特性,本研究在名义上为三维系统的 1000 纳米厚碲镉汞薄膜中对其进行了研究。在电荷中性点附近发现了一个微弱的霍尔电阻零高原,伴随着一个相对较小的 Rxx 值,其数量级为 h/e^2。研究表明,零高原是由反向传播的手性电子-空穴边缘通道形成的,它们之间的散射受到抑制。因此,从现象上看,量子自旋霍尔效应重新产生,但在宏观尺度(大于 1 毫米)上保留了弹道性。研究表明,量子自旋霍尔效应是在栅极附近的二维(2D)堆积层中形成的,而体载流子起着电子贮存器的作用。由于储层和二维层之间的载流子交换,QHE 的异常缩放不是针对 CNP,而是针对第一个电子高原。
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Quantum Hall effect and zero plateau in bulk HgTe
The quantum Hall effect, which exhibits a number of unusual properties, is studied in a gated 1000-nm-thick HgTe film, nominally a three-dimensional system. A weak zero plateau of Hall resistance, accompanied by a relatively small value of Rxx of the order of h/e^2, is found around the point of charge neutrality. It is shown that the zero plateau is formed by the counter-propagating chiral electron-hole edge channels, the scattering between which is suppressed. So, phenomenologically, the quantum spin Hall effect is reproduced, but with preserved ballisticity on macroscopic scales (larger than 1mm). It is shown that the formation of the QHE occurs in a two-dimensional (2D) accumulation layer near the gate, while the bulk carriers play the role of an electron reservoir. Due to the exchange of carriers between the reservoir and the 2D layer, an anomalous scaling of the QHE is observed not with respect to the CNP, but with respect to the first electron plateau.
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