Title :
Quantum C-V modeling in depletion and inversion: accurate extraction of electrical thickness of gate oxide in deep submicron MOSFETs
Author :
Quan, Wuyun ; Kim, Dae M. ; Lee, Hi-Deok
Author_Institution :
Computational Sci., Korea Inst. for Adv. Study, Seoul, South Korea
fDate :
5/1/2002 12:00:00 AM
Abstract :
Presented in this paper is a quantum capacitance-voltage (C-V) modeling in depletion and inversion, incorporating the gate-depletion effect. The model enables fast and accurate extraction of the electrical thickness of gate oxide in deep submicron MOSFETs. The main quantum effect consists of the inversion capacitance of two-dimensional (2-D) electrons masking the true gate-oxide thickness, tOX. The quantum mechanical and gate depletion effects necessitate 6-10 Å equivalent oxide thickness correction, which is important for a tOX of 4 nm or less. The classical C-V analysis is compared with the quantum results in the light of the data, highlighting the difference between the models. The model is shown in good agreement with experiments and also with numerically calculated results
Keywords :
MOSFET; capacitance; semiconductor device models; deep submicron MOSFET; depletion mode; electrical thickness; equivalent oxide thickness; gate depletion effect; gate oxide; inversion mode; parameter extraction; quantum capacitance-voltage model; quantum mechanical effect; two-dimensional electron system; Capacitance-voltage characteristics; Data mining; Electrons; Helium; MOSFETs; Potential well; Quantum capacitance; Quantum mechanics; Surface treatment; Two dimensional displays;
Journal_Title :
Electron Devices, IEEE Transactions on
