Monte Carlo studies of low-field electron transport in monolayer silicene and graphene

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• 作者：Piotr Borowik ; Jean-Luc Thobel and Leszek Adamowicz
• 刊名：physica status solidi (a)
• 出版年：2016
• 出版时间：November 2016
• 年：2016
• 卷：213
• 期：11
• 页码：2916-2920
• 全文大小：327K
• ISSN：1862-6319

文摘

Electron mobility and diffusion coefficients in monolayer silicene and graphene are calculated by Monte Carlo simulations using a simplified band structure with linear energy bands. Temperature evolution of the low-field mobility and diffusion coefficients is presented. Calculated characteristics of the low-field mobility in silicene exhibit a 1/T³ dependence for nondegenerate electron gas conditions, which is attributed to dominant acoustic phonon scattering and to the linear band structure of the material. In degenerate conditions, a 1/T dependence is found in silicene. In graphene, there is no such simple power relation since optical and acoustic phonon scattering have comparable influences on electron transport. It is also found that electron–electron scattering only slightly modifies the low-field electron mobility in a degenerate electron gas.