Title :
Correlations among sputter pressure, thickness, and coercivity in Al/Co/Cu magnetic thin films sputtering
Author :
Barnes, M. ; Kelly, J.J., IV ; MacKay, J.F. ; O´Brien, W.L. ; Lagally, M.G.
Author_Institution :
Wisconsin Univ., Madison, WI, USA
fDate :
9/1/2000 12:00:00 AM
Abstract :
We demonstrate the effect of sputter gas pressure and film thickness, d, on the coercivity of Co in Al/Co/Cu sputterdeposited on Si(001). Increased sputter gas pressure produces increased rms roughness and increased O content in our films. The deposited Co thickness at which the onset of ferromagnetism is first observed, dc, increases with sputter gas pressure. Above this thickness,d > dc, the coercivity increases with increasing Co thickness. For film thickness d ≫ dc, the coercivity is thickness independent. We show that coercivity is directly controllable at technologically relevant thicknesses by regulating sputter-deposition parameters.
Keywords :
aluminium; cobalt; coercive force; copper; ferromagnetic materials; interface magnetism; magnetic thin films; magnetic transitions; sputter deposition; stoichiometry; surface topography; Al-Co-Cu; Al/Co/Cu magnetic thin films; Co:O; O content; Si; coercivity; ferromagnetism; film thickness; gas pressure; rms roughness; sputter pressure; sputter-deposition parameters; thickness; Argon; Atomic layer deposition; Coercive force; Magnetic films; Magnetosphere; Rough surfaces; Sputtering; Surface roughness; Synchrotron radiation; Thickness control;
Journal_Title :
Magnetics, IEEE Transactions on
