Title :
A BEOL multilevel structure with ultra low-k materials (k ≤ 2.4)
Author :
Bao, J. ; Lustig, N. ; Engbrecht, E. ; Gill, J. ; Filippi, R. ; Lee, T.C. ; Chanda, K. ; Kioussis, D. ; Lisi, A. ; Cheng, T. ; Law, S.B. ; Simon, A. ; Flaitz, P. ; Choi, J. ; Tseng, W. ; Zielinski, E. ; Gates, S.M. ; Grill, A. ; Nguyen, Su ; Shobha, H.
Author_Institution :
IBM, Hopewell Junction, NY, USA
Abstract :
A multilevel back-end-of-line structure with a dielectric constant κ ≤ 2.4 ultra low-κ materials was developed. κ=2.2 ULK build was demonstrated at a 144nm wiring pitch and a κ=2.4 ULK was demonstrated at a 288nm pitch. Good model-to-hardware correlation for the measured capacitance indicated no significant plasma damage to the ULK 2.2 material. The extracted copper resistivity was consistent with size-effect predictions of an electron scattering model. An optimized SiN/SiCxNyH bilayer copper cap scheme was developed to minimize low-κ damage. Also, an alternative CoWP metal cap, for improved electromigration resistance, is discussed. Preliminary TDDB reliability testing suggests Vbd of ULK 2.2 144nm pitch structures and ULK 2.4 288nm pitch structures was comparable to that of dense low-κ films at similar pitches, with very few extrinsic fails.
Keywords :
electromigration; permittivity; reliability; BEOL multilevel structure; TDDB reliability testing; copper resistivity; dense low-κ films; dielectric constant; electromigration resistance; electron scattering model; model-to-hardware correlation; multilevel back-end-of-line structure; plasma damage; size 144 nm; size 288 nm; ultra low-k materials; wiring pitch; Capacitance measurement; Conductivity; Copper; Dielectric constant; Dielectric materials; Dielectric measurements; Electrons; Plasma materials processing; Plasma measurements; Wiring;
Conference_Titel :
Interconnect Technology Conference (IITC), 2010 International
Conference_Location :
Burlingame, CA
Print_ISBN :
978-1-4244-7676-3
DOI :
10.1109/IITC.2010.5510761
