Title :
Plasma-induced damage on sub-5 nm gate oxide by PECVD-Ti process
Author :
Park, Hee Sook ; Lee, Jong Myeong ; Lee, Sang Woo ; Seo, Jung Hun ; Koo, Kyoung Mo ; Lee, Hyo Bum ; Jang, Jae Hoon ; Park, Dong Kyun ; Park, In Sun ; Choi, Gil Heyun ; Chung, U. In ; Moon, Joo Tae
Abstract :
Plasma-induced damage by the PECVD-Ti process on the leakage current of sub-5 nm gate oxide was investigated. The plasma conditions during the deposition of PECVD-Ti critically affected characteristics of the gate oxide such as the leakage current and the breakdown voltage. Lowering of plasma power in a deposition step improves the gate oxide properties but cannot clearly reduce all gate oxide failure. According to plasma damage monitoring analysis, a large plasma damage during the plasma ignition step was observed, which indicates that failure of the gate oxide was due to the unbalanced plasma ignition in the deposition step. It is very important to optimize process parameters and to control system conditions to prevent the unbalanced plasma ignition during the PECVD-Ti process.
Keywords :
VLSI; electric breakdown; integrated circuit metallisation; leakage currents; nitridation; plasma CVD; titanium; 5 nm; PECVD metallization; PECVD-Ti process; Ti; VLSI; breakdown voltage; deposition step; gate oxide failure; leakage current; nitridation plasma; plasma conditions; plasma power; plasma-induced damage; process parameters; sub-5 nm gate oxide; system conditions; unbalanced plasma ignition; Etching; Ignition; Leakage current; Plasma applications; Plasma devices; Plasma immersion ion implantation; Plasma properties; Research and development; Testing; Very large scale integration;
Conference_Titel :
Plasma- and Process-Induced Damage, 2003 8th International Symposium
Print_ISBN :
0-7803-7747-8
DOI :
10.1109/PPID.2003.1199722
