 # Modeling of electrical behavior of undoped symmetric Double-Gate (DG) MOSFET using carrier-based approach

## Citation

Singh, Ajay Kumar (2019) Modeling of electrical behavior of undoped symmetric Double-Gate (DG) MOSFET using carrier-based approach. COMPEL: The International Journal for Computation and Mathematics in Electrical and Electronic Engineering, 38 (2). ISSN 0332-1649 Text 127.pdf - Published Version Restricted to Repository staff only Download (432kB)

## Abstract

Purpose This study aims to develop a compact analytical models for undoped symmetric double-gate MOSFET based on carrier approach. Double-Gate (DG) MOSFET is a newly emerging device that can potentially further scale down CMOS technology owing to its excellent control of short channel effects, ideal subthreshold slope and free dopant-associated fluctuation effects. DG MOSFET is of two types: the symmetric DG MOSFET with two gates of identical work functions and asymmetric DG MOSFET with two gates of different work functions. To fully exploit the benefits of DG MOSFETs, the body of DG MOSFETs is usually undoped because the undoped body greatly reduces source and drain junction capacitances, which enhances the switching speed. Highly accurate and compact models, which are at the same time computationally efficient, are required for proper modeling of DG MOSFETs. Design/methodology/approach This paper presents a carrier-based approach to develop a compact analytical model for the channel potential, threshold voltage and drain current of a long channel undoped symmetric DG MOSFETs. The formulation starts from a solution of the 2-D Poisson’s equation in which mobile charge term has been included. The 2-D Poisson’s equation in rectangular coordinate system has been solved by splitting the total potential into long-channel (1-D Poisson’s equation) and short-channel components (remnant 2-D differential equation) in accordance to the device physics. The analytical model of the channel potential has been derived using Boltzmann’s statistics and carrier-based approach. Findings It is shown that the metal gate suppresses the center potential more than the poly gate. The threshold voltage increases with increasing metal work function. The results of the proposed models have been validated against the Technology Computer Aided Design simulation results with close agreement. Originality/value Compact Analytical models for undoped symmetric double gate MOSFETs.

Item Type: Article Poisson equation, Symmetric double-gate MOSFET, Carrier-based approach, Charge density Q Science > QA Mathematics > QA150-272.5 Algebra Faculty of Engineering and Technology (FET) Ms Suzilawati Abu Samah 09 Mar 2022 03:23 09 Mar 2022 03:23 http://shdl.mmu.edu.my/id/eprint/9279 Edit (login required)