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Geometric resonance of four-flux composite fermions

Author(s): Hossain, MS; Ma, MK; Mueed, MA; Kamburov, D; Pfeiffer, LN; et al

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Abstract: Two-dimensional interacting electrons exposed to strong perpendicular magnetic fields generate emergent, exotic quasiparticles phenomenologically distinct from electrons. Specifically, electrons bind with an even number of flux quanta, and transform into composite fermions (CFs). Besides providing an intuitive explanation for the fractional quantum Hall states, CFs also possess Fermi-liquid-like properties, including a well-defined Fermi sea, at and near even-denominator Landau-level filling factors such as ν=1/2 or 1/4. Here, we directly probe the Fermi sea of the rarely studied four-flux CFs near ν=1/4 via geometric resonance experiments. The data reveal some unique characteristics. Unlike in the case of two-flux CFs, the magnetic field positions of the geometric resonance resistance minima for ν<1/4 and ν>1/4 are symmetric with respect to the position of ν=1/4. However, when an in-plane magnetic field is applied, the minima positions become asymmetric, implying a mysterious asymmetry in the CF Fermi sea anisotropy for ν<1/4 and ν>1/4. This asymmetry, which is in stark contrast to the two-flux CFs, suggests that the four-flux CFs on the two sides of ν=1/4 have very different effective masses, possibly because of the proximity of the Wigner crystal formation at small ν.
Publication Date: 2019
Citation: Hossain, MS, Ma, MK, Mueed, MA, Kamburov, D, Pfeiffer, LN, West, KW, Baldwin, KW, Winkler, R, Shayegan, M. (2019). Geometric resonance of four-flux composite fermions. Physical Review B, 100 (10.1103/PhysRevB.100.041112
DOI: doi:10.1103/PhysRevB.100.041112
Type of Material: Journal Article
Journal/Proceeding Title: Physical Review B
Version: Author's manuscript

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