Pinning modes of high-magnetic-field Wigner solids with controlled alloy disorder

Moon, Byoung Hee; Engel, L. W.; Tsui, D. C.; Pfeiffer, L. N.; West, K. W.

doi:10.1103/physrevb.89.075310

Cited by 6 publications

(7 citation statements)

References 41 publications

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“…Such a high resistance phase between ν = 1/3 and 2/7 has also been observed in GaAs, and was interpreted as the electron Wigner solid pinned by disorder. Two mechanisms have been identified for the appearance of the Wigner solid around these filling factors: one is a large LL mixing, which modifies the ground state energies of fractional quantum Hall states and Wigner solid; 4 , 5 , 19 the other is short-range disorder 4 , 27 , 28 . Both mechanisms are more pronounced in ZnO-heterostructures than in GaAs 25 , 29 .…”

Section: Resultsmentioning

confidence: 99%

Composite fermion liquid to Wigner solid transition in the lowest Landau level of zinc oxide

et al. 2018

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Interactions between the constituents of a condensed matter system can drive it through a plethora of different phases due to many-body effects. A prominent platform for it is a dilute two-dimensional electron system in a magnetic field, which evolves intricately through various gaseous, liquid and solid phases governed by Coulomb interaction. Here we report on the experimental observation of a phase transition between the composite fermion liquid and adjacent magnetic field induced phase with a character of Wigner solid. The experiments are performed in the lowest Landau level of a MgZnO/ZnO two-dimensional electron system with attributes of both a liquid and a solid. An in-plane magnetic field component applied on top of the perpendicular magnetic field extends the Wigner-like phase further into the composite fermion liquid phase region. Our observations indicate the direct competition between a composite fermion liquid and a Wigner solid formed either by electrons or composite fermions.

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Section: Resultsmentioning

confidence: 99%

Composite fermion liquid to Wigner solid transition in the lowest Landau level of zinc oxide

et al. 2018

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“…As we will see, holography is indeed one of the cases where this does not happen. More interestingly and broadly, the dynamics of the magnetophonon peak as a function of the magnetic field can reveal the fundamental nature of the "disorder" responsible for its pinning [39][40][41][42][43][44][45], and it thus encodes a very valuable insight into the system at hand. In the following section 2, we will provide more details about the physics of magnetophonon resonances.…”

Section: Jhep09(2020)037mentioning

confidence: 99%

Magnetophonons & type-B Goldstones from hydrodynamics to holography

Baggioli

Grieninger

2020

J. High Energ. Phys.

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We perform a detailed analysis of a large class of effective holographic models with broken translations at finite charge density and magnetic field. We exhaustively discuss the dispersion relations of the hydrodynamic modes at zero magnetic field and successfully match them to the predictions from charged hydrodynamics. At finite magnetic field, we identify the presence of an expected type-B Goldstone boson Re[ω] ∼ k 2 , known as magnetophonon and its gapped partner-the magnetoplasmon. We discuss their properties in relation to the effective field theory and hydrodynamics expectations. Finally, we compute the optical conductivities and the quasinormal modes at finite magnetic field. We observe that the pinning frequency of the magneto-resonance peak increases with the magnetic field, in agreement with experimental data on certain 2D materials, revealing the quantum nature of the holographic pinning mechanism.

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“…An explanation 46 of the extended ν range is that in the competition between solid and FQHE liquids, the solid can be more stable in larger disorder due its pinning energy, which the solid gains as carrier positions adjust to the disorder potential. This is also the explanation for the transition to insulator at the low ν termination of the FQHE series occurring around ν = 1/3 in Al alloy-disordered samples 32,37 (as opposed to near 1/5 in ultralow disorder samples 8 ). The resonance also sets in as ν goes below 1/3 in low-density samples 47 or in which the pinning energy is presumably more important relative to the carrier interaction.…”

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“…The behavior seen for ν < 0.8 is clearly enabled by the disorder, since the disorder extends the resonant range into that region. Disorder stabilizes a solid vs an FQHE liquid since the solid optimizes its energy in the disorder potential, gaining its pinning energy 43 , and the transition to insulator at the low ν termination of the FQHE series occurs around ν = 1/3 in Al alloy-disordered samples 30,35 .…”

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confidence: 99%

“…Samples from the same wafers were used in earlier work in dc transport [32][33][34][35][36] . Characterization 33 of the samples at One sample has x = 0.33%, density n ≈ 2.1 × 10 11 cm −2 and as-cooled mobility µ about 2.3 × 10 6 cm 2 /V-s; the other sample has x = 0.85%, n ≈ 2.5 × 10 11 cm −2 and µ ≈ 1.4 × 10 6 cm 2 /V-s. A previous paper 37 showed that samples from this series exhibit pinning mode resonances at the low ν termination of the FQHE series, which for these disordered samples occurred for ν below that of the 1/3 FQHE. The presence of disorder is known 16 to raise the ν at which the FQHE series is terminated in an insulator.…”

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Microwave pinning modes near Landau fillingν=1in two-dimensional electron systems with alloy disorder

et al. 2015

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We report measurements of microwave spectra of two-dimensional electron systems hosted in dilute Al alloy, Al x Ga 1−x As, for a range of Landau level fillings, ν, around 1. For ν > 0.8 or ν < 1.2, the samples exhibit a microwave resonance whose frequency decreases as ν moves away from 1. A resonance with this behavior is the signature of solids of quasiparticles or -holes in the partially occupied Landau level, which was previously seen in ultralow disorder samples. For ν < 0.8 down to as low as ν = 0.54, a resonance in the spectra is still present in the Al alloydisordered samples, though it is partially or completely suppressed at ν = 3/5 and 1/2, and is strongly damped over much of this ν range. The resonance also shows a striking enhancement in peak frequency for ν just below 3/4. We discuss possible explanations of the resonance behavior for ν < 0.8 in terms of the composite fermion picture.

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Pinning modes of high-magnetic-field Wigner solids with controlled alloy disorder

Cited by 6 publications

References 41 publications

Composite fermion liquid to Wigner solid transition in the lowest Landau level of zinc oxide

Composite fermion liquid to Wigner solid transition in the lowest Landau level of zinc oxide

Magnetophonons & type-B Goldstones from hydrodynamics to holography

Microwave pinning modes near Landau fillingν=1in two-dimensional electron systems with alloy disorder

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