Title :
Comparison of raised source/drain Implant-Free Quantum-Well and Tri-gate MOSFETs using 3D Monte Carlo simulation
Author :
Towie, E.A. ; Riddet, C. ; Asenov, Asen
Author_Institution :
Device Modelling Group, Univ. of Glasgow, Glasgow, UK
Abstract :
In this paper we examine the impact of a raised source/drain architecture on the performance of single-gate and multi-gate, high mobility channel MOSFETs. We make use of 3D Monte Carlo (MC) simulations to predict the performance of InGaAs n-type and Germanium (Ge) p-type MOSFETs. The transition from a raised source/drain Implant-Free QuantumWell (IFQW) MOSFET to an Implant-Free Tri-gate MOSFET is expected to show both improved electrostatic behaviour and better drive current due to the larger gated channel area. We show that although significant electrostatic improvement is demonstrated in the tri-gate case, there is poor on-current performance in comparison to the IFQW MOSFET due to increased access resistance to the fin channel from the raised source/drain.
Keywords :
III-V semiconductors; MOSFET; Monte Carlo methods; gallium arsenide; germanium; indium compounds; semiconductor quantum wells; 3D Monte Carlo simulation; Ge; IFQW; InGaAs; access resistance; fin channel; high mobility channel MOSFET; implant-free quantum-well MOSFET; implant-free tri-gate MOSFET; raised source-drain architecture; Indium gallium arsenide; Logic gates; MOSFET; Monte Carlo methods; Performance evaluation; FinFET; Germanium; III-V; InGaAs; Monte Carlo; Multi-Gate; Raised Source/Drain;
Conference_Titel :
Simulation of Semiconductor Processes and Devices (SISPAD), 2013 International Conference on
Conference_Location :
Glasgow
Print_ISBN :
978-1-4673-5733-3
DOI :
10.1109/SISPAD.2013.6650655
