Title :
Gate Leakage Analysis of Nano-MOSFETs using Ensemble Full Band Monte Carlo with Quantum Correction
Author :
Kajen, R.S. ; Chang, Ken K F ; Bai, Ping ; Li, Erping
Abstract :
Gate leakage current is becoming an important component of total leakage current in scaled metal oxide semiconductor field effect transistor (MOSFET) devices. The gate leakage current is mostly predicted by drift diffusion (DD) based simulators which do not accurately model non-linear effects such as velocity overshoot and non-equilibrium hot carrier transport in very short gate length transistors. We present a full-band Monte Carlo (MC) model that has been coupled to a Schrodinger equation solver to predict direct tunneling gate currents in a 50 nm gate length (31 nm channel length) n-type MOSFET in saturation mode, in logic on-state and logic off-state. In addition a dual-thickness gate oxide structure is proposed to reduce the gate tunneling leakage current.
Keywords :
MOSFET; Monte Carlo methods; Schrodinger equation; leakage currents; MOSFET devices; Monte Carlo; Schrodinger equation solver; direct tunneling gate currents; drift diffusion; gate leakage analysis; nano-MOSFET; non-equilibrium hot carrier transport; quantum correction; FETs; Gate leakage; Hot carriers; Leakage current; Logic; MOSFET circuits; Monte Carlo methods; Predictive models; Schrodinger equation; Tunneling; Full Band Monte Carlo; MOSFET; direct tunneling; dual-thickness gate oxide; gate leakage current;
Conference_Titel :
Integrated Circuits, 2007. ISIC '07. International Symposium on
Conference_Location :
Singapore
Print_ISBN :
978-1-4244-0797-2
Electronic_ISBN :
978-1-4244-0797-2
DOI :
10.1109/ISICIR.2007.4441815
