Title :
Reliable integration of robust porous ultra low-k (ULK) for the advanced BEOL interconnect
Author :
Kyu-Hee Han ; Seungwook Choi ; Tae Jin Yim ; Seunghyuk Choi ; Jongmin Baek ; Sang Hoon Ahn ; Nae-In Lee ; Siyoung Choi ; Ho-Kyu Kang ; Jung, E.S.
Author_Institution :
Process Dev. Team, Samsung Electron., Hwasung, South Korea
Abstract :
In order to address the increasing RC and reliability challenges at the advanced technology nodes, a new robust ULK was developed that incorporates the bridging carbon atoms (Si-[CH2]x-Si) in p-SiOCH matrix. Its elastic modulus and plasma damage resistance were improved more than 40% at the same dielectric constant than the commercially available ULK. These improvements are attributed to 80% higher atoms that exist in both Si-[CH2]x-Si and Si-CH3 structures with its pore size 23% smaller. Furthermore, its superb properties resulted in 3~4% capacitance reduction, and improvement of TDDB and EM TTF (time to failure) by 2 order and 2~3 times, respectively, on an advanced BEOL vehicle.
Keywords :
carbon compounds; elastic moduli; electric breakdown; integrated circuit interconnections; integrated circuit reliability; low-k dielectric thin films; permittivity; silicon compounds; EM TTF; Si-CH2-Si; Si-CH3; SiOCH; TDDB; advanced BEOL interconnect; advanced technology nodes; back end of line; dielectric constant; elastic modulus; plasma damage resistance; reliable integration; robust porous ultra low-k; time dependent dielectric breakdown; time to failure; Capacitance; Carbon; Films; Plasmas; Resistance; Robustness;
Conference_Titel :
Interconnect Technology Conference (IITC), 2013 IEEE International
Conference_Location :
Kyoto
Print_ISBN :
978-1-4799-0438-9
DOI :
10.1109/IITC.2013.6615552
