Modeling of External Electric Field Effect on the Carbon and Silicon Carbide Nanotubes

机译：对碳和碳化硅纳米管的外部电场影响建模

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Studying emission characteristics of nanotubes is extremely important for development of electronics. Compared to other electron sources nanotube-based field emitters allow obtaining significant emission currents at relatively low values of the applied field. It is possible due to their unique structure. This article is devoted to theoretical investigation how external electric field effects several samples of open single-wall nanotubes from carbon and silicon carbide. Total energies, dipole moments and band gaps for five types of nanotubes were calculated from the first principles. The numerical experiment results indicate the adequacy of modeling. It was concluded that considered configurations of achiral carbon nanotubes should be semiconductors.

机译：研究纳米管的排放特性对于电子产品的发展非常重要。与其他电子源相比，基于纳米管的场发射器允许在施加的场的相对较低的值下获得显着的发射电流。由于它们的独特结构是可能的。本文致力于理论研究，外部电场如何影响来自碳和碳化硅的几个开放式单壁纳米管样品。从第一个原则计算了五种类型的纳米管的总能量，偶极矩和带空隙。数值实验结果表明建模的充分性。结论是，考虑了甲状腺碳纳米管的构型应该是半导体的。

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《International Conference "State-of-the-art trends of scientific research of artificial and natural nanoobjects"》|2016年|various paging|共7页
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Veronika Sorokina; Konstantin Nikiforov;
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中图分类人工智能理论;
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Modeling of External Electric Field Effect on the Carbon and Silicon Carbide Nanotubes

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