Title :
Reliability study of planarized aluminum metallization
Author :
Hoang, H.H. ; Chen, F.S. ; Zamanian, M. ; Dixit, G.A. ; Wei, C.C. ; Liou, F.-T.
Author_Institution :
SGS-Thomson Microelectron., Carrollton, TX, USA
Abstract :
This work investigates the reliability issues associated with an aluminum process, called the Al-plug process, that results in the complete filling of submicron contacts and vias. It has been demonstrated that the Al-plug process is a viable means of filling high aspect ratio vias and contacts for submicron geometries and can be used without degrading device reliability. It also has been experimentally determined that the film´s microstructural parameters such as surface roughness, grain size, Si nodules and hillock formation are improved over the conventionally deposited Al-Si-Cu film. Both electromigration and stress-induced migration data also indicate that the Al-plug metal film is highly reliable. The planarity of the Al-Si-Cu lines in vias and over steps is excellent compared to that of a standard metal process
Keywords :
VLSI; aluminium alloys; copper alloys; metallisation; reliability; silicon alloys; Al-Si-Cu metallisation; Al-plug process; Si nodules; VLSI; complete filling of submicron contacts; electromigration; filling high aspect ratio vias; grain size; hillock formation; microstructural parameters; multilevel interconnection; planarity; planarized Al metallisation; reliability issues; step coverage; stress-induced migration data; submicron geometries; surface roughness; Aluminum; Degradation; Electromigration; Filling; Geometry; Grain size; Metallization; Rough surfaces; Semiconductor films; Surface roughness;
Conference_Titel :
VLSI Multilevel Interconnection Conference, 1991, Proceedings., Eighth International IEEE
Conference_Location :
Santa Clara, CA
Print_ISBN :
0-87942-673-X
DOI :
10.1109/VMIC.1991.153041
