Title :
Barrier-first integration for improved reliability in copper dual damascene interconnects
Author :
Alers, G.B. ; Rozbicki, R.T. ; Harm, G.J. ; Kailasam, S.K. ; Ray, G.W. ; Danek, M.
Author_Institution :
Novellus Syst., San Jose, CA, USA
Abstract :
A new PVD barrier process is demonstrated that eliminates critical dimension (CD) loss and copper contamination of intra-layer dielectric (ILD) caused by conventional argon sputter precleans. In this process, a layer of Ta(N) is first deposited to protect the via sidewalls from contamination, then an RF bias is applied to the wafer during subsequent barrier deposition such that there is a net etch (resputter) from the bottom of the vias. The resputter step allows effective removal of Cu oxide and etch-residues without contamination of the dielectric with resputtered copper, and without faceting of the ILD. This barrier-first scheme improves via resistance, ILD reliability, via stress migration and electromigration performance relative to a conventional argon sputter preclean.
Keywords :
argon; copper; dielectric materials; electric resistance; electromigration; insulator contamination; integrated circuit interconnections; integrated circuit reliability; internal stresses; sputter etching; tantalum compounds; thin films; vapour deposition; Cu; Cu oxide; PVD barrier process; TaN; TaN layer; argon sputter; barrier-first integration; copper contamination; copper dual damascene interconnects; critical dimension loss; electromigration; etching; intralayer dielectric material; reliability; resistance; stress migration; Argon; Atherosclerosis; Contamination; Copper; Dielectric losses; Electromigration; Protection; Radio frequency; Sputter etching; Stress;
Conference_Titel :
Interconnect Technology Conference, 2003. Proceedings of the IEEE 2003 International
Print_ISBN :
0-7803-7797-4
DOI :
10.1109/IITC.2003.1219702
