Simulation on the electric field effect of Bi thin film

Solid State Electronics Letters Pub Date : 2020-12-01 DOI:10.1016/j.ssel.2020.04.001
Lee-Chi Hong , Chieh Chou , Hao-Hsiung Lin
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引用次数: 0

Abstract

We report our simulation on the electric field effect of Bi thin film. Band diagram and carrier concentrations of the Bi channel at different surface potentials have been obtained by numerically solving Poisson's equation. In the calculation, the anisotropic characteristic of effective mass for carrier concentration and conductivity have been considered. The carrier densities were calculated from Fermi-Dirac integral. The conductivity effective mass ratio of electron and hole have been calculated to verify how the gate bias voltage affects the conductance of the Bi channel. The result shows that the Debye length in Bi is ~10 nm and nearly independent of the bias voltage. The dependency of conductance on gate bias is also discussed.

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Bi薄膜电场效应的模拟
本文报道了Bi薄膜电场效应的模拟。通过数值求解泊松方程,得到了不同表面电位下铋通道载流子浓度和带线图。计算中考虑了有效质量对载流子浓度和电导率的各向异性。载流子密度由费米-狄拉克积分计算。计算了电子和空穴的电导率有效质量比,验证了栅极偏置电压对双通道电导率的影响。结果表明,Bi中的德拜长度为~10 nm,与偏置电压几乎无关。本文还讨论了电导与栅极偏置的关系。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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Solid State Electronics Letters
Solid State Electronics Letters
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