In this paper, a two-dimensional (2-D) center channel potential based subthreshold current (SC) and subthreshold swing (SS) are developed analytically for strained-Si (s-Si) graded-channel dual-material double gate (GC-DMDG) MOSFET with interface charges. The proposed analytical model is extracted by solving 2-D Poisson equation in s-Si graded-channel using appropriate boundary conditions. The analytical 2-D model includes effects of various MOSFET parameters such as s-Si channel length, strain in the silicon substrate, and oxide interface charge density with damaged length by extensively analyzing channel potential, SC, and SS. Also, the subthreshold characteristics of the proposed s-Si GC-DMDG MOSFET demonstrate superior performance over s-Si graded channel double gate MOSFET. The numerical results obtained using TCAD of the proposed DG MOSFET are validated with the results attained from proposed analytical model. Moreover, the performance of CMOS inverter using s-Si GC-DMDG MOSFET is evaluated for different device parameters. It is investigated that the proposed s-Si GC-DMDG MOSFET has better noise margin than s-Si GC-DG MOSFET.
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