N. Pandey and Y. S. Chauhan
Analytical Modeling of Short-Channel Effects in MFIS Negative-Capacitance FET
Including Quantum Confinement Effects
in IEEE TED (Early Access), DOI: 10.1109/TED.2020.3022002.
Abstract: An analytical 2-D model of double-gate metal-ferroelectric-insulator-semiconductor-negative-capacitance FET (MFIS-NCFET), using Green's function approach, in the subthreshold region, is presented in this article. The explicit solution of coupled 2-D Landau-Devonshire and Poisson equations is analytically derived. Subsequently, an analytical and explicit model of subthreshold slope is developed from potential functions. The developed model includes quantum-mechanical effects, which considers not only geometrical confinements but also electrical confinements. The analytical solution of a 2-D nonhomogeneous Poisson equation coupled with the 1-D Schrödinger equation is used to obtain the potential function in the channel. The impact of the ferroelectric thickness (tfe) on quantum confinement is also studied. We find that larger tfe reduces the quantum confinement effect. Therefore, as tfe increases, threshold voltage roll-off with the variation in Si-body thickness decreases.
Fig: Schematic of DG MFIS-NCFET.
Aknowegement: This work was supported in part by the Swarna Jayanti Fellowship under Grant DST/SJF/ETA-02/2017-18 and in part by the FIST Scheme of the Department of Science and Tech- nology under Grant SR/FST/ETII-072/2016.
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