Title :
Simulation Study on Channel Length Scaling of High Performance Partially Depleted Metal Gate and Poly Gate SOI MOSFETs
Author :
Wang, Xinlin ; Bryant, Andres ; Oldiges, Phil ; Narasimha, Shreesh ; Dennard, Robert ; Haensch, Wilfried
Author_Institution :
Syst. & Technol. Group, IBM Semicond. R&D Center, Hopewell Junction, NY
Abstract :
In this work, two-dimensional numerical device simulations and 6-stage inverter chain delay calculations are done to examine whether aggressive channel length scaling continually provides transistor performance gain and whether metal gates (MG) offer potential for device scaling over poly gate (PG) for high performance (HP) applications. Our simulation show that for HP application (1) there is an optimized channel length, at which maximum performance gain is obtained both for MG and PG; (2) At short channel length regime (<46 nm), there is no performance gain of QG-MG relative to PG due to lack of carrier confinement, which result in severe sub-threshold slope degradation of QG-MG; (3) BE-MG stacks show 10% gain on a inverter delay over PG
Keywords :
MOSFET; semiconductor device models; silicon-on-insulator; channel length scaling; inverter chain delay calculation; metal-oxide-semiconductor field effect transistor; partially depleted metal gate; poly gate SOI MOSFET; silicon-on-insulator; transistor performance gain; two-dimensional numerical device simulation; Carrier confinement; Degradation; Delay; Doping; Electrodes; Inverters; MOSFETs; Performance gain; Silicon; Switches; MOSFET; channel lengh scaling; high performance; metal gate; poly gate depletion; short channel effect;
Conference_Titel :
Simulation of Semiconductor Processes and Devices, 2006 International Conference on
Conference_Location :
Monterey, CA
Print_ISBN :
1-4244-0404-5
DOI :
10.1109/SISPAD.2006.282891
