Title :
The leakage current improvement in an ultrashallow junction NMOS with Co silicided source and drain
Author :
Kang, Woo-Tag ; Kim, Jeong-Seok ; Lee, Kang-Yoon ; Shin, Yoo-Cheol ; Kim, Tae-Heon ; Park, Yong-Jik ; Park, Jong-Woo
Author_Institution :
R&D Center, Samsung Electron. Co, Kyungki-Do, CA, USA
Abstract :
The leakage current characteristics of the cobalt silicided NMOS transistors with a junction depth of 800 /spl Aring/ have been studied. In order to minimize the junction leakage current, the thickness of the CoSi/sub 2/ layer should he controlled under 300 /spl Aring/ and the Si surface damage induced by the gate spacer etch should be minimized. The post furnace annealing after the second silicidation by the rapid thermal annealing (RTA) process also affected the leakage current characteristics. The gate induced drain leakage (GIDL) current was not affected by the lateral encroachment of CoSi/sub 2/ layer into the channel direction when the gate spacer length was larger than 400 /spl Aring/.
Keywords :
MOSFET; cobalt compounds; leakage currents; rapid thermal annealing; semiconductor device metallisation; 300 to 400 angstrom; 800 angstrom; CoSi/sub 2/; channel direction; gate induced drain leakage; gate spacer etch; junction depth; lateral encroachment; leakage current characteristics; post furnace annealing; rapid thermal annealing; silicided drain; silicided source; ultrashallow junction NMOS; Cobalt; Etching; Furnaces; Leakage current; MOS devices; MOSFETs; Rapid thermal annealing; Rapid thermal processing; Silicidation; Thickness control;
Journal_Title :
Electron Device Letters, IEEE
