A new type of thin-film recording media with advanced microstructure:
the bicrystal film, has been studied experimentally. The easy axes of
the bicrystal films are oriented along two specified orthogonal direct
ions in the film plane. In this study, an LiF single crystal substrate
with (100) orientation is utilized to obtain the Cr monocrystal under
layer with (100) orientation, and on top of the (100)Cr underlayer the
CoCrTa with (1120BAR) texture was grown epitaxially. X-ray and transm
ission electron microscopy (TEM) diffraction studies confirm the fabri
cated thin-film media has the bicrystal microstructure. The magnetic p
roperties of the bicrystal films have demonstrated very high coercivit
y (H(C) approximately 3000 Oe) and coercive and remanent squareness (S
approximately 0.9, S approximately 0.9), all desired for high areal
density magnetic recording. The in-plane hysteresis loops of the fabri
cated films show fourfold symmetry which is the characteristic of the
bicrystal microstructure. The effects of Cr underlayer thickness on th
e magnetic properties of the bicrystal film has also been studied.