Using a novel pulsed power supply in combination with a standard circular f
lat magnetron source, operated with a Cu target, a peak power density of 28
00 W cm(-2) was achieved. This results in a very intense plasma with peak i
on current densities of up to 3.4 A cm(-2) at the substrate situated 10 cm
from the target. The ionized fraction of the deposited Cu flux was estimate
d to be approximately 70% from deposition rate measurements. The potential
for high-aspect-ratio trench filling applications by high power pulsed magn
etron sputtering is demonstrated by deposition in via-structures. The high
power pulsed technique also results in a higher degree of target utilizatio
n and an improved thickness uniformity of the deposited films compared with
conventional d.c. magnetron sputtering. (C) 1999 Published by Elsevier Sci
ence S.A. All rights reserved.