We explore reactive ion-beam sputtering deposition (IBSD) for the growth of
a-Ge:H films. It is shown that compact a-Ge:H films can be obtained by IBS
D at substrate temperatures between 180 degrees C and 220 degrees C by mini
mizing the ion bombardment of the growth surface. The infrared (IR) spectra
of the best materials, as far as device applications are concerned, so-far
obtained show no poly-hydride nor surface-like contributions to the Ge-H d
ipole vibration bands. Positron annihilation (PA) spectroscopy studies of t
hese samples reveal smaller valence (S) parameters and larger core (W) para
meters as compared with the films grown under less-favorable conditions, wh
ich indicate a relatively smaller concentration of the largest voids, the a
nnihilation process being controlled mainly by trapping at small vacancy cl
usters or monovacancies, Similar IR and PA measurements on in situ ion-bomb
arded IBSD and RF-sputtered samples indicate that ion irradiation is a main
factor in large void formation. (C) 2000 Elsevier Science B.V. All rights
reserved.