Giant magnetostrictive thin films of both the binary compound ThxFe1-x
and the ternary compound (TbyDy1-y)xFe1-x have been prepared by multi
target magnetron sputtering in wide compositional ranges. In view of t
heir potential use as actuators in microsystem technology the research
was focused on low-field magnetostrictive properties in connection wi
th low coercivity. Giant magnetostriction was found for a range of com
positions with Th contents higher than those of the crystalline Tb-Fe
compounds. Depending on, the composition, amorphous films with a magne
tostriction as large as lambda almost-equal-to 450 X 10(-6) at an appl
ied field of 6 kOe and a coercive field H(c) < 10 Oe could be prepared
. The improvement of the low-field magnetostriction of the ternary all
oy Tb-Dy-Fe in comparison to Tb-Fe was found to be less distinct than
for crystalline materials, probably because all reported films showed
a perpendicular easy axis. The amorphous state of the films are stable
at least up to 300-degrees-C.