Particle-hole symmetry and the reentrant integer quantum Hall Wigner solid

Gábor A Csáthy,Kirk W Baldwin,Loren N Pfeiffer,Sean A Myers,Vidhi Shingla

doi:10.1038/s42005-021-00709-x

Gábor A Csáthy, Kirk W Baldwin + Show 3 more

Open Access

https://doi.org/10.1038/s42005-021-00709-x

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Journal: Communications Physics	Publication Date: Sep 10, 2021
Citations: 5	License type: open-access

Affiliation: Purdue University West Lafayette

Abstract

The interplay of strong Coulomb interactions and of topology is currently under intense scrutiny in various condensed matter and atomic systems. One example of this interplay is the phase competition of fractional quantum Hall states and the Wigner solid in the two-dimensional electron gas. Here we report a Wigner solid at ν = 1.79 and its melting due to fractional correlations occurring at ν = 9/5. This Wigner solid, that we call the reentrant integer quantum Hall Wigner solid, develops in a range of Landau level filling factors that is related by particle-hole symmetry to the so called reentrant Wigner solid. We thus find that the Wigner solid in the GaAs/AlGaAs system straddles the partial filling factor 1/5 not only at the lowest filling factors, but also near ν = 9/5. Our results highlight the particle-hole symmetry as a fundamental symmetry of the extended family of Wigner solids and paint a complex picture of the competition of the Wigner solid with fractional quantum Hall states.

Highlights

The interplay of strong Coulomb interactions and of topology is currently under intense scrutiny in various condensed matter and atomic systems
We find that the reentrant IQHWS (RIQHWS) is related by particle–hole symmetry to the reentrant WS (RWS) that develops at high magnetic fields
We focus our attention on the range of filling factors delimited by the ν = 2 integer quantum Hall states (IQHS) and the ν = 5/3 fractional quantum Hall states (FQHSs), i.e., the region near B = 7.25 T