Title :
Dual stress capping layer enhancement study for hybrid orientation finFET CMOS technology
Author :
Shin, Kyoungsub ; Chui, Chi On ; King, Tsu-Jae
Author_Institution :
Dept. of Electr. Eng. & Comput. Sci., California Univ., Berkeley, CA
Abstract :
3D stress in FinFET and tri-gate FET structures induced by a tensile or compressive capping layer is studied via simulation. The classic bulk-Si piezoresistance model is then used to predict the impact on carrier mobilities. A tensile capping layer is expected to provide dramatic enhancements (>100%) in electron mobility for a (100)-sidewall fin with lang100rang current flow, while a compressive capping layer is expected to provide modest enhancement (<25%) in hole mobility for a (110)-sidewall fin with lang110rang current flow. Mobility enhancement will be greater for fins with higher aspect ratio, so that a stressed capping layer is expected to be more effective for enhancing FinFET performance
Keywords :
CMOS integrated circuits; MOSFET; hole mobility; 3D stress; CMOS technology; FinFET; aspect ratio; bulk-Si piezoresistance; compressive capping layer; dual stress capping layer enhancement; electron mobility; hole mobility; hybrid orientation; sidewall fin; tensile capping; tri gate FET structures; CMOS technology; Compressive stress; Electron mobility; FETs; FinFETs; MOS devices; MOSFETs; Piezoresistance; Silicon on insulator technology; Tensile stress;
Conference_Titel :
Electron Devices Meeting, 2005. IEDM Technical Digest. IEEE International
Conference_Location :
Washington, DC
Print_ISBN :
0-7803-9268-X
DOI :
10.1109/IEDM.2005.1609528
