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Wigner solid pinning modes tuned by fractional quantum Hall states of a nearby layer

机译：威格纳固体钉扎模式通过附近层的分数量子霍尔态进行调整

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摘要

We studied a bilayer system hosting two-dimensional electron systems (2DESs) in close proximity but isolated from one another by a thin barrier. One 2DES has low electron density and forms a Wigner solid (WS) at high magnetic fields. The other has much higher density and, in the same field, exhibits fractional quantum Hall states (FQHSs). The WS spectrum has resonances which are understood as pinning modes, oscillations of the WS within the residual disorder. We found the pinning mode frequencies of the WS are strongly affected by the FQHSs in the nearby layer. Analysis of the spectra indicates that the majority layer screens like a dielectric medium even when its Landau filling is ~¹/2, at which the layer is essentially a composite fermion (CF) metal. Although the majority layer is only ~ one WS lattice constant away, a WS site only induces an image charge of ~0.1e in the CF metal.

机译：我们研究了一个双层系统，该双层系统非常接近地容纳着二维电子系统（2DES），但通过薄壁垒彼此隔离。一个2DES具有低电子密度，并在高磁场下形成维格纳固体（WS）。另一个具有更高的密度，并且在同一场中表现出分数量子霍尔态（FQHS）。 WS光谱具有共振，该共振被理解为钉扎模式，即WS在残留无序内的振荡。我们发现WS的固定模式频率受附近层的FQHS强烈影响。光谱分析表明，即使当其Landau填充为〜^{1 / 2时，多数层也像电介质一样进行筛选，此时该层实质上是复合费米子（CF）金属。尽管多数层只有约一个WS晶格常数，但WS部位仅在CF金属中感应出约0.1e的像电荷。}

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期刊名称 Science Advances
作者
A. T. Hatke; H. Deng; Yang Liu; L. W. Engel; L. N. Pfeiffer; K. W. West; K. W. Baldwin; M. Shayegan;
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年(卷),期 2019(5),3
年度 2019
页码 eaao2848
总页数 5
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专利

1. Wigner solid pinning modes tuned by fractional quantum Hall states of a nearby layer [J] . A. T. Hatke, H. Deng, Yang Liu, Science Advances . 2019,第3期

机译：由附近层的分数量子厅陈述调整的Wigner固体钉扎模式
2. Observation of a Pinning Mode in a Wigner Solid with v = 1/3 Fractional Quantum Hall Excitations [J] . Han Zhu, rnYong P. Chen, rnP. Jiang, Physical review letters . 2010,第12期

机译：在v = 1/3分数量子霍尔激发的Wigner固体中钉扎模式的观察
3. Microwave spectroscopic observation of a Wigner solid within the v = 1/2 fractional quantum Hall effect [J] . A. T. Hatke, Yang Liu, L. W. Engel, Physical review . 2017,第4期

机译：v = 1/2分数量子霍尔效应内的Wigner固体的微波光谱观察
4. STUDY OF DECOHERENCE TIME OF ELECTRONIC STATES IN QUANTUM DOTS, JOSEPHSON JUNCTIONS AND FRACTIONAL QUANTUM HALL EFFECT "PSEUDO-SPIN" QUANTUM COMPUTING DEVICES [C] . MASANORI SUGAHARA, SERGEI KRUCHININ, NIKOLAI N. BOGOLUBOV NATO advanced research workshop on new trends in superconductivity . 2002

机译：Quantum Dots，Josephson结和分数量子霍尔效应“伪旋转”量子计算装置的电子状态脱机时间研究
5. Experimental studies of the fractional quantum Hall effect and the Wigner solids. [D] . Zhang, Chi. 2010

机译：分数量子霍尔效应和维格纳固体的实验研究。
6. Emergent Chiral Spin Liquid: Fractional Quantum Hall Effect in a Kagome Heisenberg Model [O] . Shou-Shu Gong, Wei Zhu, D. N. Sheng -1

机译：紧急手性自旋液体：Kagome Heisenberg模型中的分数量子霍尔效应
7. Observation of a Pinning Mode in a Wigner Solid with v = 1/3 Fractional Quantum Hall Excitations [O] . Zhu, H., Chen, Y. P., Jiang, P., 2010

机译：在v = 1/3的分数量子霍尔激发下的维格纳固体中钉扎模式的观察

Wigner solid pinning modes tuned by fractional quantum Hall states of a nearby layer

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