Title :
Effects of bias-sputtering on magnetron-sputtered magneto-optical recording media
Author :
Shieh, H.P.D. ; Kryder, M.H. ; Lee, J.W.
Author_Institution :
Carnegie-Mellon Univ., Pittsburgh, PA, USA
fDate :
11/1/1988 12:00:00 AM
Abstract :
Effects of substrate bias on the magnetic properties and microstructure of both RF-magnetron- and DC-magnetron-sputtered magnetooptical recording thin films of TbCo are investigated. It is shown that as an applied RF substrate bias voltage (Vb ) becomes more negative, argon entrapment in the TbCo films increases precipitously and the deposition rate decreases. Applying Vb more negative than -30 V (at a cathode voltage of -0.5 kV) results in the formation of voids and a columnar microstructure in magnetron-sputtered films. The diffraction patterns of these amorphous films reveal traces of microcrystallites a few nanometers in size. In addition to the dominant perpendicular anisotropy, evidence of in-plane magnetization is detected. In contrast to what has been found for RF diode sputtering, substrate bias thus adversely affects the properties of magnetron-sputtered films
Keywords :
cobalt alloys; ferrimagnetic properties of substances; magnetic anisotropy; magnetic properties of amorphous substances; magnetic thin films; magnetisation; magneto-optical recording; sputtered coatings; terbium alloys; DC magnetron sputtering; RF magnetron sputtering; TbCo films; amorphous films; bias-sputtering; deposition rate; diffraction patterns; in-plane magnetization; magnetic properties; magneto-optical recording media; microcrystallites; microstructure; perpendicular anisotropy; substrate bias; voids; Amorphous magnetic materials; Argon; Magnetic films; Magnetic properties; Magnetooptic effects; Magnetooptic recording; Microstructure; Perpendicular magnetic recording; Radio frequency; Voltage;
Journal_Title :
Magnetics, IEEE Transactions on
