Title :
Leakage mechanism in Cu damascene structure with methylsilane-doped low-K CVD oxide as intermetal dielectric
Author :
Wu, Zhen-Cheng ; Chiang, Chiu-Chih ; Wu, Wei-Hao ; Chen, Mao-Chieh ; Jeng, Shwang-Ming ; Li, Lain-Jong ; Jang, Syun-Ming ; Yu, Chen-Hua ; Liang, Mong-Song
Author_Institution :
Dept. of Electron. Eng., Nat. Chiao Tung Univ., Hsinchu, Taiwan
fDate :
6/1/2001 12:00:00 AM
Abstract :
This letter investigates the leakage mechanism in the Cu damascene structure with methylsilane-doped low-k CVD organosilicate glass (OSG) as the intermetal dielectric (IMD). The leakage between Cu lines was found to be dominated by the Frenkel-Poole (F-P) emission in OSG for the structure using a 50-nm SiC etching stop layer (ESL). In the structure using a 50-nm SiN ESL, the leakage component through SiN also made a considerable contribution to the total leakage in addition to the bulk leakage from trapped electrons in OSG. An appropriate ESL of sufficient thickness is essential to reduce the leakage for application to a Cu damascene integration scheme.
Keywords :
copper; dielectric thin films; integrated circuit interconnections; integrated circuit metallisation; integrated circuit reliability; leakage currents; 50 nm; Cu; Cu damascene structure; Frenkel-Poole emission; SiC; SiC etching stop layer; SiN; SiN etching stop layer; bulk leakage; intermetal dielectric; leakage mechanism; methylsilane-doped low-K CVD oxide; organosilicate glass; trapped electrons; Annealing; Dielectrics; Etching; Glass; Radio frequency; Silicon carbide; Silicon compounds; Temperature; Testing; Voltage;
Journal_Title :
Electron Device Letters, IEEE
