Effect of Field-Induced Coherence on Transport in Semiconductors
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概要
- 論文の詳細を見る
When an electron is accelerated by an applied field, there exists phase coherency between Bloch stales which the electron goes through. We can interpret this effect as afterimage of electronic motion. Due to this effect, localized eigenstatcs (Landau states in magnetic fields or Stark states in electric fields) are formed from Bloch states if cyclic motion is completed. However, the phase coherence should exist evenwhen the cyclic motion is incomplete. From this point of view, an electron should be expressed by a superposition of Bloch slates even in low fields. We investigate the effect of the field-induced coherency on transport properties by using wavepackets formed as a result of the superposition. It is shown that the wavepackels can be correlated with the Green's functions. We also show that the present theory isapplicable to the Monte Carlo technique which enables a more precise investigation.
- 社団法人日本物理学会の論文
- 2003-02-15
著者
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Morifuji M
Osaka Univ. Osaka
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Morifuji Masato
Department Of Electronic Engineering Faculty Of Engineering Osaka University
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ONO Minekazu
Department of Electronic Engineering, Osaka University
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Ono Minekazu
Department Of Electronic Engineering Osaka University
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