α-Ag_2Se as a Degenerate Semiconductor
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概要
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The electron concentration n in α Ag_2Se (high temperature phase) is varied from 0.6 to 6 × 10^<18>cm^<-3> by sending a current across the galvanic cell Ag|AgI|Ag_2Se specimen|Pt. The electron gas in the specimen is fairly highly degenerate. The surface potential V, the electrical conductivity σ, the Hall coefficient R, the thermoelectric power θ, the Nernst coefficient Q, other transport coefficients, and the magnetic susceptibility, etc. are measured as functions of the electromotive force E of the cell, as n is varied. The fact that dV/dE is nearly unity shows that E represents the relative height of the Fermi level. We notice the discrepancies between θe/k and 1/3π^2∂ log σ/∂(eE/k T) and between Qe/k and 1/3π^2∂(R_σ)/∂(eE/kT) which suggest that the conduction band is not rigid. Taking these discrepancies into consideration, the experimental data are analized with the formal theory of the degenerate electron gas under the spherical band model. The analyses show that the data are almost consistent with the picture; the effective mass increases with increasing electron energy (non-parabolic band) and also increases with excess Ag content, while the relaxation time is nearly constant.
- 社団法人日本物理学会の論文
- 1967-07-05
著者
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Miyatani Shin-ya
Department Of Physics Faculty Of Science Kanazawa University
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Yanagihara Takashi
Department Of Physics Faculty Of Science Niigata University
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Yanagihara Takashi
Department Of Chemistry Faculty Of Science Okayama University Of Science
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TOYOTA Yukio
Department of Physics, Faculty of Science, Niigata University
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IIDA Kiichi
Department of Physics, Faculty of Science, Niigata University
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Iida Kiichi
Department Of Physics Faculty Of Science Niigata University
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Toyota Yukio
Department Of Physics Faculty Of Science Niigata University
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Miyatani Shin-ya
Department Of Physics Faculty Of Science Niigata University:(present)department Of Physics Faculty O
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