Title :
Electromigration-induced copper interconnect degradation and failure: the role of microstructure
Author :
Zschech, E. ; Meyer, M.A. ; Zienert, I. ; Langer, E. ; Geisler, H. ; Preusse, A. ; Huebler, P.
Author_Institution :
AMD Saxony LLC & Co. KG, Dresden, Germany
fDate :
27 June-1 July 2005
Abstract :
In this paper, EM-induced degradation processes and failure in on-chip interconnects are discussed based on experimental studies. In-situ microscopy studies at embedded via/line dual inlaid copper interconnect test structures show that void formation and evolution depend on both interface bonding and microstructure. In future, copper microstructure becomes more critical for interconnect reliability since grain boundary diffusion becomes increasingly important for structures with strengthened interfaces, i. e. interfaces are the fastest pathways for the EM-induced mass transport any more. Particularly, grain boundaries have to be considered as significant pathways for mass transport in copper interconnects.
Keywords :
copper; electromigration; failure analysis; grain boundary diffusion; integrated circuit interconnections; integrated circuit reliability; Cu; copper interconnect; copper microstructure; electromigration-induced degradation; grain boundary diffusion; in-situ microscopy; interconnect reliability; interface bonding; mass transport; on-chip interconnects; Bonding; Copper; Degradation; Dielectric materials; Geometry; Grain boundaries; LAN interconnection; Microstructure; Scanning electron microscopy; Testing;
Conference_Titel :
Physical and Failure Analysis of Integrated Circuits, 2005. IPFA 2005. Proceedings of the 12th International Symposium on the
Print_ISBN :
0-7803-9301-5
DOI :
10.1109/IPFA.2005.1469136
