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In this paper, we propose a new MOSFET design: Multi Layered Dielectric Four Gate MOSFET (G4-MLD MOSFET) and investigate its device performance through a two dimensional (2-D) analytical model by solving Poissonpsilas equation using parabolic potential profile approach. The 2-D analytical model gives physical insight into the electrical characteristics of this design in terms of surface potential...
A two-dimensional (2-D) analytical solution of electrostatic potential is derived for lightly doped Double Gate (DG) MOSFET in the sub-threshold region by solving Poissonpsilas equation using the parabolic profile approach. The analytical model evaluates surface potential, threshold voltage, sub-threshold slope and sub-threshold drain current. Further, to improve the gate control and reduce the gate...
The electrical behavior of deca-nanometer ISE MOSFET with gate stack: ISEGaS has been investigated and a computationally efficient analytical model using Evanescent Mode Analyses (EMA), for solving two-dimensional Poisson's equation in the channel region, has been presented for accurate prediction of surface potential, electric field, subthreshold current and threshold voltage. An important short...
In the present work, a two-dimensional analytical model for novel device architecture, asymmetric gate stack surrounding gate transistor (ASYMGAS SGT) is presented and its effectiveness in suppressing short channel effects and hot carrier effects is investigated. The model is developed by solving the Poisson equation in cylindrical coordinates assuming a parabolic potential profile in the radial direction...
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