Direct Source-to-Drain Tunnelling and its Impact on the Intrinsic Parameter Fluctuations in nanometre scale Double Gate MOSFETs
نویسندگان
چکیده
The conventional MOSFETs are likely to reach scaling limitations at gate lengths between 15 and 10nm. The double-gate MOSFET architecture is a promising candidate for scaling to 10nm and below in line with the requirements of the International Technology Roadmap. However, it is expected that direct source-drain tunnelling would be a major limiting factor in the double-gate device. In this paper we study, using carefully calibrated density gradient simulations, the impact of quantum confinement and tunnelling on the operation of nanometer scale double gate MOSFETs. We show that source-drain tunnelling is unlikely to be a major effect limiting the scaling of the double gate MOSFET design. We also investigate the influence of source-drain tunnelling on the intrinsic parameter fluctuations in these devices.
منابع مشابه
Intrinsic Fluctuations in Sub 10-nm Double-Gate MOSFETs Introduced by Discreteness of Charge and Matter
We study, using numerical simulation, the intrinsic parameter fluctuations in sub 10 nm gate length double gate MOSFETs introduced by discreteness of charge and atomicity of matter. The employed “atomistic” drift-diffusion simulation approach includes quantum corrections based on the density gradient formalism. The quantum confinement and source-to-drain tunnelling effects are carefully calibra...
متن کاملA 3-D Atomistic Study of Archetypal Double Gate MOSFET Structures
The double gate MOSFET architecture has been proposed as a possible solution to allow the scaling of MOSFETs to the sub-30 nm regime, particularly due to its inherent resistance to short-channel effects. The use of lightly doped, or even undoped, channels means that such devices should be inherently resistant to random dopant induced fluctuations which will be one of the major obstacles to MOSF...
متن کاملModelling End - of - the - Roadmap Transistors
In this paper we present a methodology for statistical 3D simulation of end-of-theroadmap decananometre and nanometre scale transistors. The numerical simulation approach is based on the recently advanced density gradient formalism and captures both quantum confinement and source-to-drain tunnelling. We use our ‘atomistic’ device simulator to study intrinsic parameter fluctuations introduced by...
متن کاملIntrinsic parameter fluctuations in nanometre scale thin-body SOI devices introduced by interface roughness
An investigation is presented into intrinsic parameter fluctuations in thin-body SOI MOSFETs due to local variations in body thickness as a result of interface roughness. A series of well scaled devices from 15 nm channel length down to 5 nm are investigated using three-dimensional drift-diffusion simulations which include the density gradient equation to account for quantum mechanical effects....
متن کاملCan the Density Gradient Approach Describe the Source-Drain Tunnelling in Decanano Double-Gate MOSFETs?
As MOSFETs are scaled into the deep sub-micron (decanano) regime, quantum mechanical confinement and tunnelling start to dramatically affect their characteristics. It has already been demonstrated that the density gradient approach can be successfully calibrated in respect of vertical quantum confinement at the Si/SiO2 interface and can reproduce accurately the quantum mechanical threshold volt...
متن کاملذخیره در منابع من
با ذخیره ی این منبع در منابع من، دسترسی به آن را برای استفاده های بعدی آسان تر کنید
عنوان ژورنال:
دوره شماره
صفحات -
تاریخ انتشار 2002