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- Title
Two-dimensional electron gas in a lattice of antidots with a period of 80 nm.
- Authors
Kozlov, D. A.; Kvon, Z. D.; Plotnikov, A. E.; Latyshev, A. V.
- Abstract
The magnetotransport in a two-dimensional electron gas with a lattice of antidots, which has a record-breaking small (80 nm) period and size (20–40 nm) of antidots comparable with the de Broglie wavelength of electrons, has been experimentally studied. A wide variety of new features of the magnetoresistance behavior has been observed both under semiclassical conditions and in the regime of quantizing magnetic fields. In particular, the anomalous semiclassical magnetoresistance peak induced by the nonmonotonic scattering effects has been revealed. The Shubnikov-de Haas oscillations have been revealed to exhibit an unusual transition from the anomalous period constant in the magnetic field to the normal constant in the inverse magnetic field. The effect of the generation and suppression of the oscillations has also been observed; this effect is induced by the transformation of the short and long-range scattering potentials in the lattice owing to the variation of the density of the two-dimensional electrons.
- Subjects
ELECTRON gas; WAVELENGTHS; MAGNETORESISTANCE; MAGNETIC fields; SCATTERING (Physics)
- Publication
JETP Letters, 2010, Vol 91, Issue 3, p134
- ISSN
0021-3640
- Publication type
Article
- DOI
10.1134/S0021364010030070