Intrinsic Fluctuations in Sub 10-nm Double-Gate MOSFETs Introduced by Discreteness of Charge and Matter
نویسندگان
چکیده
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 calibrated in respect of self-consistent Poisson-Schrödinger and nonequilibrium Green’s function simulations. Various sources of intrinsic parameter fluctuations, including random discrete dopants in the source/drain regions, single dopant or charged defect state in the channel region and gate line edge roughness, are studied in detail.
منابع مشابه
Simulation of Intrinsic Parameter Fluctuations in Decananometer and Nanometer-Scale MOSFETs
Intrinsic parameter fluctuations introduced by discreteness of charge and matter will play an increasingly important role when semiconductor devices are scaled to decananometer and nanometer dimensions in next-generation integrated circuits and systems. In this paper, we review the analytical and the numerical simulation techniques used to study and predict such intrinsic parameters fluctuation...
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 کاملIntrinsic Parameter Fluctuations in Decananometer MOSFETs Introduced by Gate Line Edge Roughness
In this paper, we use statistical three-dimensional (3-D) simulations to study the impact of the gate line edge roughness (LER) on the intrinsic parameters fluctuations in deep decananometer (sub 50 nm) gate MOSFETs. The line edge roughness is introduced using a Fourier synthesis technique based on the power spectrum of a Gaussian autocorrelation function. In carefully designed simulation exper...
متن کاملThe Use of Quantum Potentials for Confinement and Tunnelling in Semiconductor Devices
As MOSFETs are scaled to sub 100 nm dimensions, quantum mechanical confinement in the direction normal to the silicon dioxide interface and tunnelling (through the gate oxide, band-to-band and from sourceto-drain) start to strongly affect their characteristics. Recently it has been demonstrated that first order quantum corrections can be successfully introduced in self-consistent drift diffusio...
متن کاملIntrinsic Threshold Voltage Fluctuations in Decanano MOSFETs Due to Local Oxide Thickness Variations
Intrinsic threshold voltage fluctuations introduced by local oxide thickness variations (OTVs) in deep submicrometer (decanano) MOSFETs are studied using three-dimensional (3-D) numerical simulations on a statistical scale. Quantum mechanical effects are included in the simulations employing the density gradient (DG) formalism. The random Si/SiO2 and gate/SiO2 interfaces are generated from a po...
متن کامل