Diamond, due to its high surface acoustic wave (SAW) velocity, offers much
attraction for realisation of high frequency SAW filters. To launch elastic
waves in solid, the interdigital transducers (IDTs) and a thin layer of su
itable piezoelectric material such as ZnO are deposited on diamond film. Th
e most significant requirements of diamond films for SAW filters concern a
high resistivity, a high purity, a surface roughness of approximately 10 nm
and a large thickness to obtain good characteristics of frequency response
(insertion loss, rejection,...). In this work, diamond films deposited on
silicon by microwave plasma assisted chemical vapour deposition (MPACVD) in
CH4-H-2 gas mixture, are characterised as a function of time deposition an
d N-2 adjunction in order to determine their capacity to be used as substra
tes for SAW layered structure filters. The purity, morphology and roughness
of the films are characterised by Raman spectroscopy, scanning electron mi
croscopy (SEM), and profilometry. The electrical properties are determined
with the four points probe. It is first shown that the films resistance and
roughness increase with thickness when the diamond purity, in regard to Ra
man spectroscopy, remains constant. Secondly, we point out that nitrogen ad
dition in CH4-H-2 gas mixture improves the resistance and the thickness of
diamond films while the roughness drastically decreases. These results have
a crucial importance for the realisation of good functioning SAW filters.
(C) 2001 Elsevier Science B.V. All rights reserved.