F.M. d'Heurle, F.K. LeGoues, et al.
Applied Physics Letters
This paper describes the effect of low-pressure collimated sputtering (LPCS) on deposition rates, step coverages, and electrical properties of Al-Cu. The LPCS deposition is achieved in a magnetron sputter deposition system with a hollow cathode and collimator. The deposition results show that as the via or line size reduces, a complete fill requires a monotonic increase in the aspect ratio of the collimator which limits the throughput for a thick deposition, especially at high pressures (>1 mT). The benefit of the LPCS is the improved deposition rate (scaled to power) of 1.5-2× compared to the conventional high-pressure collimated deposition. The integration of LPCS process to fabricate a two-level Al-Cu metal structure with submicron Al-Cu studs (aspect ratio of 2) shows excellent via and electromigration resistances.© 1995 American Institute of Physics.
F.M. d'Heurle, F.K. LeGoues, et al.
Applied Physics Letters
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IRPS 2009
R.V. Joshi, W. Hwang, et al.
ISLPED 2000
M.L. Yu, K.Y. Ahn, et al.
IBM J. Res. Dev