Temperature-Induced Plasmons in a Graphite Sheet : Condensed Matter: Structure, etc.
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概要
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The low-frequency electronic excitations of a two-dimensional graphite sheet are studied within the self-consistent-field approach. A zero-gap graphite sheet only exhibits the interband e-h excitations at zero temperature. Electrons and holes grow rapidly as temperature increases from zero. Temperature induces the intraband excitations and thus the intraband plasmons. A graphite sheet is predicted to be the first undoped system which could exhibit the low-frequency plasmons purely due to temperature. Whether such plasmons exist are mainly determined by temperature and momentum. The temperature-induced plasmons in a graphite sheet are identified as the 2D plasmons from the momentum dependence of plasmon frequencies. They quite differ from the optical plasmons in the three-dimensional graphite or graphite intercalation compounds. The inelastic light scattering spectroscopies could be used to verify the temperature-induced plasmons.
- 社団法人日本物理学会の論文
- 2000-02-15
著者
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Lin Ming-fa
Department Of Physics National Cheng Kung University
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Shyu Feng-lin
Department Of Electronics Engineering Fortune Institute Of Technology
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LlN Ming-Fa
Department of Physics,National Cheng Kung University
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Lln Ming-fa
Department Of Physics National Cheng Kung University
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