Title :
Co Alloy- SiO2 Granular-Type Longitudinal Media for Sputtered Tape Applications
Author :
Lee, Hwan-Soo ; Sato, Takanori ; Ono, Hiroaki ; Wang, Lin ; Bain, James A. ; Laughlin, David E.
Author_Institution :
Carnegie Mellon Univ., Pittsburgh
Abstract :
We investigated bias-sputtered Co alloy-films (CoCrPt- and CoPt-) for high density magnetic tape media. We used bias sputtering to achieve desirable properties (good in-plane orientation and low noise) in these media. The CoCrPt-sputtered tape media showed a flat frequency response with a of 160 kfci and a corresponding signal-to-noise ratio of 21 dB. The overwrite performance was better than 40 dB for an overwriting frequency of 12 MHz (90 kfci) and overwritten frequency ranging from 1 to 10 MHz (8-75 kfci). An overcoat (carbon nitride) with a thickness of 6 nm resulted in a 4-5 dB spacing loss in the roll-off curve at high recording densities, and a 3-4 dB lower overwrite ratio. In addition, the CoPt-media with no Cr present produced a maximum output 4-5 dB higher, but also higher noise power compared to the CoCrPt-media.
Keywords :
cobalt alloys; magnetic recording noise; magnetic tapes; platinum alloys; silicon compounds; sputtered coatings; Co alloy-granular-type longitudinal media; CoCrPt; CoPt; SiO2; bias sputtering; bias-sputtered Co alloy-films; flat frequency response; frequency 1 MHz to 10 MHz; frequency 12 MHz; high density magnetic tape media; overwrite performance; overwriting frequency; signal-to-noise ratio; sputtered tape applications; sputtered tape media; Chromium; Cobalt alloys; Data storage systems; Frequency; Heating; Magnetic films; Magnetic separation; Perpendicular magnetic recording; Sputtering; Temperature; Bias sputtering; Co alloy- ${hbox{SiO}}_{2}$ films; sputtered tape media;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2007.897885
