Title :
Effects of sputtering conditions on the recording characteristics of iron oxide thin film media
Author :
Chen, Mao-Min ; Kakalec, Michael A. ; Ju, Kochan ; Tsang, Ching ; Castillo, Gilbert
Author_Institution :
IBM, San Jose, CA, USA
fDate :
11/1/1988 12:00:00 AM
Abstract :
Magnetite films (Fe3O4) were reactively sputtered onto (100) silicon substrates in an Ar+O2 gas environment from a target containing Fe and 0.75 at.% Os. The films were further oxidized in air to form γ-Fe2O3. The oxide thin-film disks were then written with a thin-film inductive head and read back with an experimental shielded MR element for recording performance evaluation. The medium noise increased with written transition density and reached a plateau at a linear density greater than 2000 flux changes per millimeter. This plateau, as well as the noise per transition at lower density, increased with substrate temperature but decreased with oxygen flow rate. The structural analysis of the films indicates that the medium noise improvement is a result of grain size reduction. However, films deposited at lower substrate temperatures exhibit degradation in B-H loop squareness, resulting in poor overwrite, peak jitter, peak shift, and -3 dB density
Keywords :
ferrimagnetic properties of substances; grain size; iron compounds; magnetic disc storage; magnetic recording; sputtered coatings; B-H loop squareness; Fe2O3; Fe3O4; Si; grain size reduction; linear density; medium noise; overwrite; peak jitter; peak shift; recording characteristics; recording performance evaluation; shielded MR element; sputtering conditions; structural analysis; substrate temperature; thin film media; thin-film inductive head; written transition density; Disk recording; Iron; Magnetic flux; Magnetic heads; Semiconductor films; Silicon; Sputtering; Substrates; Temperature; Transistors;
Journal_Title :
Magnetics, IEEE Transactions on
