通过原子模型揭示石墨烯基晶体管的输运和噪声特性

2010 International Conference on Simulation of Semiconductor Processes and Devices Pub Date : 2010-10-14 DOI:10.1109/SISPAD.2010.5604587

G. Iannaccone, A. Betti, G. Fiori

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引用次数: 0

摘要

我们讨论了石墨烯基晶体管的一组有趣的输运和噪声特性，这些特性可以用原子模型直接研究——具有紧密结合哈密顿量的非平衡格林函数——并且不能用基于更高层次物理抽象的模型直接访问。我们提出了一个基于石墨烯纳米带的具有现实缺陷的通道中可实现的电子迁移率的研究。然后，我们将讨论如何利用双层石墨烯的小间隙和小密度态来设计具有极陡亚阈斜率的隧道场效应管。然后，在噪声方面，我们将展示电子-电子相互作用和带间跃迁对增强基于小间隙碳纳米管的场效应管的通道噪声的影响。

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Transport and noise properties of graphene-based transistors revealed through atomistic modelling

We discuss an intriguing set of transport and noise properties of graphene-based transistors that can be investigated in a direct way with atomistic modeling - Non-Equilibrium Green's Functions with a Tight-Binding Hamiltonian - and are not directly accessible with models based on a higher level of physical abstraction. We present an investigation of the achievable electron mobility in channels based on graphene nanoribbons with realistic imperfections. Then, we will discuss how the small gap and small density of states of bilayer graphene can be used to design tunnel FETs with extremely steep subthreshold slope. Then, as far as noise is concerned, we will show the impact of electron-electron interaction and of interband transitions in enhancing the channel noise of FETs based on small-gap carbon nanotubes.

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2010 International Conference on Simulation of Semiconductor Processes and Devices

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