Self-Trapping of an Electron by the Acoustical Mode of Lattice Vibration. I
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概要
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The importance of the acoustical mode of lattice vibration for self-trapping of an electron is emphasized. It is shown that when the coupling constant between the electron and the acoustical mode vibration exceeds a certain critical value, the effective mass of the electron changes discontinuously to such an enormous value that it is practically allowed to take a localized self-trapping state as an eigenstate, in contrast to the case of polaron, in which the effective mass changes continuously with coupling constant. This difference is attributed to the different force range of electron-lattice interaction in the two cases.
- 一般社団法人日本物理学会の論文
- 1961-07-25
著者
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TOYOZAWA Y.
The Institute for Solid State Physics, University of Tokyo
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Toyozawa Y.
The Institute For Solid State Physics University Of Tokyo
関連論文
- Local and Band Structures in the Fundamental Absorption Spectra of One-Dimensional Crystals
- Local and Band Structures in the Fundamemtal Absorption Spectra of Solids
- Self-Trapping of an Electron by the Acoustical Mode of Lattice Vibration. I