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Microwave spectroscopy of the low-filling-factor bilayer electron solid in a wide quantum well

Author(s): Hatke, AT; Liu, Y; Engel, LW; Shayegan, Mansour; Pfeiffer, LN; et al

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Abstract: At the low Landau filling factor termination of the fractional quantum Hall effect series, two-dimensional electron systems exhibit an insulating phase that is understood as a form of pinned Wigner solid. Here we use microwave spectroscopy to probe the transition to the insulator for a wide quantum well sample that can support single-layer or bilayer states depending on its overall carrier density. We find that the insulator exhibits a resonance which is characteristic of a bilayer solid. The resonance also reveals a pair of transitions within the solid, which are not accessible to dc transport measurements. As density is biased deeper into the bilayer solid regime, the resonance grows in specific intensity, and the transitions within the insulator disappear. These behaviours are suggestive of a picture of the insulating phase as an emulsion of liquid and solid components.
Publication Date: Dec-2015
Electronic Publication Date: 7-May-2015
Citation: Hatke, AT, Liu, Y, Engel, LW, Shayegan, M, Pfeiffer, LN, West, KW, Baldwin, KW. (2015). Microwave spectroscopy of the low-filling-factor bilayer electron solid in a wide quantum well. Nature Communications, 6 (1), 10.1038/ncomms8071
DOI: doi:10.1038/ncomms8071
EISSN: 2041-1723
Type of Material: Journal Article
Journal/Proceeding Title: Nature Communications
Version: Final published version. This is an open access article.



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