晶体管
量子电容
弹道传导
碳纳米管
电容
碳纳米管场效应晶体管
场效应晶体管
物理
计算物理学
材料科学
光电子学
电压
纳米技术
量子力学
电子
电极
作者
Deji Akinwande,Jiale Liang,Soogine Chong,Yoshio Nishi,H.‐S. Philip Wong
摘要
We developed a fully analytical ballistic theory of carbon nanotube field effect transistors enabled by the development of an analytical surface potential capturing the temperature dependence and gate and quantum capacitance electrostatics. The analytical ballistic theory is compared to the experimental results of a ballistic transistor with good agreement. The validated analytical theory enables intuitive circuit design, provides techniques for parameter extraction of the bandgap and surface potential, and elucidates on the device physics of drain optical phonon scattering and its role in reducing the linear conductance and intrinsic gain of the transistor. Furthermore, a threshold voltage definition is proposed reflecting the bandgap-diameter dependence. Projections for key analog and digital performances are discussed.
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