Title :
The Efficacy of Metal-Interfacial Layer-Semiconductor Source/Drain Structure on Sub-10-nm n-Type Ge FinFET Performances
Author :
Jeong-Kyu Kim ; Gwang-Sik Kim ; Hyohyun Nam ; Changhwan Shin ; Jin-Hong Park ; Jong-Kook Kim ; Byung Jin Cho ; Saraswat, Krishna C. ; Hyun-Yong Yu
Author_Institution :
Sch. of Electr. Eng., Korea Univ., Seoul, South Korea
Abstract :
We investigate the impact of metal-interfacial layer-semiconductor source/drain (M-I-S S/D) structure with heavily doped n-type interfacial layer (n+-IL) or with undoped IL on sub-10-nm n-type germanium (Ge) FinFET device performance using 3-D TCAD simulations. Compared to the metal- semiconductor S/D structure, the M-I-S S/D structures provide much lower contact resistivity. Especially, the M-I-S S/D structure with n+-IL provides much lower contact resistivity, resulting in ~5× lower contact resistivity than 1×10-8 Ω-cm2, specified in International Technology Roadmap for Semiconductors. In addition, we found that the M-I-S structure with n+-IL remarkably suppresses the sensitivity of contact resistivity to S/D doping concentration.
Keywords :
MOSFET; contact resistance; elemental semiconductors; germanium; technology CAD (electronics); 3D TCAD simulations; Ge; S/D doping concentration; contact resistivity; heavily doped n-type interfacial layer; metal-interfacial layer-semiconductor source/drain structure; metal-semiconductor S/D structure; n-type germanium FinFET device performance; size 10 nm; CMOS technology; Conductivity; Contact resistance; Doping; FinFETs; Germanium; Performance evaluation; CMOS; FinFET; MOSFET; contact resistance; germanium; interfacial layer; source/drain;
Journal_Title :
Electron Device Letters, IEEE
DOI :
10.1109/LED.2014.2364574
