Landau Levels and Cyclotron Resonance of Holes in InSb
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概要
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Landau levels and cyclotron resonance of holes in InSb are studied for the magnetic field along the <001> derection on the basis of the effective mass theory. The effective Hamiltonian used for the envelope states is of the form ℋ(k_0+k). Here ℋ is a 4×4 coupled Hamiltonian matrix about the center of the Brillouin zone (B. Z.) including the inversion asymmetry part (k-linear term) in the valence band, and k_0 is one of the valence band extremun points which exist a way from the center of B. Z. in the <111> direction. Equally spaced Landau levels are obtained from the Hamiltonian, when ∣K/(ℏ^2/m)(eH/ℏc)^<1/2>∣ is larger than about 2, where H is the magnetic field and K is Kane's coefficient of the K-linear term. Bagguley et al.'s valence band parameters are used in the Hamiltonian. The recent cyclotron resonance measurment reported by Robinson is well explained with the equally spaced Landau levels.
- 社団法人日本物理学会の論文
- 1968-09-15
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