Title :
Recording performance enhancement via in-situ annealing of multilayer media structures
Author :
Harkness, Samuel D., IV ; Zou, Jie ; Chen, Jianping ; Ranjan, Rajiv Y. ; Rauch, Gary C.
Author_Institution :
Seagate US LLC Recording Media Oper., Fremont, CA, USA
fDate :
7/1/2001 12:00:00 AM
Abstract :
A novel technique for incorporating rapid thermal annealing into media sputter fabrication has facilitated the production of flyable media samples. Discs are fabricated with standard processing techniques to control physical grain size and crystallite texture. A CrMn caplayer ranging in thickness between 0.5 and 5 nm is subsequently deposited to provide the Mn-diffusant necessary to achieve post-treatment exchange decoupling. While still in-situ and before application of protective overcoats, the discs are exposed to temperatures between 200°C and 350°C compatible with most media production processes. A threefold increase in coercive force (peak reaching ~3800 Oe) and 10 dB improvement in medium signal-to-noise ratio is observed for the optimized process
Keywords :
coercive force; exchange interactions (electron); grain size; magnetic multilayers; magnetic recording noise; rapid thermal annealing; sputter deposition; sputtered coatings; texture; 200 to 350 C; CrMn; cap layer thickness; coercive force; crystallite texture; flyable media samples; grain size control; in-situ rapid thermal annealing; media sputter fabrication; medium signal-to-noise ratio; multilayer media structures; optimized process; post-treatment exchange decoupling; recording performance enhancement; Crystallization; Fabrication; Grain size; Process control; Production; Protection; Rapid thermal annealing; Rapid thermal processing; Size control; Temperature;
Journal_Title :
Magnetics, IEEE Transactions on
