Cyclotron Resonance of Wigner Crystal in Semiconductor Heterostructures (Condensed Matter: Electronic Structure, Electrical, Magnetic and Optical Properties)
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概要
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The cyclotron resonance absorption of two-dimensional electrons in semiconductor heterostructures in high magnetic fields is investigated. It is assumed that the ionized impurity potential is a dominant scattering mechanism, and the theory explicitly takes the Coulomb correlation effect into account through the Wigner phonons. The cyclotron resonance linewidth is in quantitative agreement with the experiment in the Wigner crystal regime at T = 4.2 K. Similar to the cyclotron resonance theory of the charge density waves pinned by short-range impurities, the present results for the long-range scattering also show the doubling of the resonance peaks. However, unlike the case of the charge density waves, our theory gives the pinning mode independent of the bulk compressibility of the substrate materials.
- 社団法人日本物理学会の論文
- 2003-07-15
著者
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Dinh Van
Department Of Condensed Matter Physics Osaka University:department Of Computational Nanomaterials De
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Dinh V
Osaka Univ. Osaka Jpn
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SAITOH Motohiko
Department of Physics, University of Tokyo
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Dinh Van
Department Of Physics Graduate School Of Science Osaka University
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Saitoh M
Department Of Physics Graduate School Of Science Osaka University
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Saitoh M
Univ. Tokyo Tokyo Jpn
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Saitoh Motohiko
Department Of Physics Graduate School Of Science Osaka University
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