Title :
Effect of Thermal Conditions on Bit Error Rate for Barium-Ferrite Particulate Media
Author :
Kurihashi, Yuichi ; Shimizu, Osamu ; Murata, Y. ; Asai, Masami ; Noguchi, Hiroki
Author_Institution :
Recording Media Res. Labs., FUJIFILM Corp., Odawara, Japan
Abstract :
In this study, the thermal stability of user data written on perpendicularly oriented barium-ferrite media was evaluated in terms of the bit error rate. To determine whether recorded data can be read back after long-term preservation, we recorded a pseudorandom data pattern on barium-ferrite media at a linear density of 500 kbpi and baked the media at 65°C for an extended period. After baking, the recorded data were read back using a 0.45m-wide giant magnetoresistive read head. The bit error rate was calculated using the GPR4ML-AR model. It was found that the bit error rate was stable even after one year at 65°C. This result indicates that perpendicularly oriented barium-ferrite media has high thermal stability.
Keywords :
barium compounds; error statistics; ferrites; magnetic heads; magnetic particles; magnetoresistive devices; perpendicular magnetic recording; thermal stability; BaFe2O4; GPR4ML-AR model; barium-ferrite particulate media; bit error rate; giant magnetoresistive read head; linear density; long-term preservation; perpendicularly oriented barium-ferrite media; pseudorandom data pattern; size 0.45 mum; temperature 65 degC; thermal condition effect; thermal stability; user data; Bit error rate; Magnetic recording; Media; Perpendicular magnetic anisotropy; Saturation magnetization; Thermal stability; Barium ferrite particle; magnetic recording; magnetic tape recording; thermal stability;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2243119
