Title :
Modeling of quantum mechanical effects in ultra-thin body nanoscale double-gate FinFET
Author :
Monga, Udit ; Fjeldly, Tor A. ; Vishvakarma, Santosh K.
Author_Institution :
Dept. of Electron. & Telecommun., Norwegian Univ. of Sci. & Technol., Kjeller, Norway
Abstract :
A framework for modeling of quantum mechanical effects in the ultra-thin body Nanoscale double-gate (DG) FinFET is presented. For subthreshold conditions, we have assumed that the electrostatics is dominated by capacitive coupling between the body electrodes, thus the potential is obtained as a solution of the 2D Laplace equation with the help of conformal mapping techniques. In the near-threshold regime, we have solved the Poisson´s equation using quantum-mechanical charge density, in the gate-to-gate direction to model the total potential.
Keywords :
Laplace equations; MOSFET; Poisson equation; conformal mapping; electrostatics; semiconductor device models; 2D Laplace equation; Poisson´s equation; body electrodes; capacitive coupling; conformal mapping techniques; electrostatics; gate-to-gate direction; near-threshold regime; quantum mechanical effects; quantum-mechanical charge density; ultrathin body nanoscale double-gate FinFET; Conformal mapping; Electron devices; FinFETs; Insulation; MOSFET circuits; Nanoscale devices; Permittivity; Poisson equations; Quantum mechanics; Silicon; FinFET conformal mapping; Quantum effects; double-gate device; nanoscale MOSFET;
Conference_Titel :
Electron Devices and Semiconductor Technology, 2009. IEDST '09. 2nd International Workshop on
Conference_Location :
Mumbai
Print_ISBN :
978-1-4244-3831-0
Electronic_ISBN :
978-1-4244-3832-7
DOI :
10.1109/EDST.2009.5166135
