Title :
Systematic deprocessing: a technique for identification of the origins of process-induced damage and threshold voltage shifts
Author :
Fischer, J. ; Krishnan, Anand T. ; Kaneshige, Chad ; Hong, Qi-Zhong ; Krishnan, Srikanth
Author_Institution :
KFAB, Texas Instrum. Inc., Dallas, TX, USA
Abstract :
Back-end plasma process-induced damage has become a major concern for device reliability. Previous methods of process characterization do not allow for isolation of a single process within a metal loop. To solve this problem we developed a deprocessing technique that provides the capability for understanding the impact of a single process on transistor performance and reliability. This deprocessing technique is applied to pinpoint the source(s) of plasma damage. It is also used to identify the impact of backend plasma processes on interfacial Si-H concentration, which reportedly affects negative bias temperature instability lifetimes.
Keywords :
MOSFET; chemical mechanical polishing; etching; integrated circuit metallisation; plasma CVD; semiconductor device metallisation; semiconductor device reliability; sputter etching; NMOS; PMOS; Si-H; back-end plasma process-induced damage; chemical mechanical polishing; device reliability; gate leakage; interfacial Si-H concentration; negative bias temperature instability lifetimes; plasma damage source; process characterization; single process; systematic deprocessing; threshold voltage shift; threshold voltage shifts; transistor performance; wet etching; Dielectrics; Etching; Fuses; Gate leakage; Plasma applications; Plasma devices; Plasma sources; Plasma temperature; Testing; Threshold voltage;
Conference_Titel :
Plasma- and Process-Induced Damage, 2003 8th International Symposium
Print_ISBN :
0-7803-7747-8
DOI :
10.1109/PPID.2003.1199724
