Title :
Remanence coercivity of recording media in the high speed regime
Author :
He, L. ; Wang, D. ; Doyle, W.D.
Author_Institution :
Dept. of Phys. & Astron., Alabama Univ., Tuscaloosa, AL, USA
fDate :
11/1/1995 12:00:00 AM
Abstract :
New measurements of the switching characteristics in short pulse fields of CrO2 particulate tape and CoNi metal evaporated tape are reported which complete a survey of materials used in flexible media. An unambiguous measure of the results is the remanence coercivity HCR which increases as pulse width τ decreases. Three mechanisms which could contribute to the increase are thermally assisted switching, damping limited switching and changes in the reversal process. In samples with high viscosity, the results are in excellent agreement over 12 decades with the simple thermal model proposed by Sharrock within the applicable range of τ>1/f0, where f0 is the attempt frequency equal to 109 Hz. For τ<1/f0, HCR continues to increase; for example, in CrO2 at τ=0.6 ns, it reaches 1.8 times the value for τ~1.0 s. In samples with low viscosity, the rapid increase in HCR for τ>1/f0 in some materials confirms that other mechanisms are dominant in these materials
Keywords :
coercive force; magnetic switching; magnetic tapes; magnetisation reversal; remanence; CoNi; CoNi metal evaporated tape; CrO2; CrO2 particulate tape; attempt frequency; damping limited switching; high speed recording; pulse fields; remanence coercivity; reversal process; thermal model; thermally assisted switching; viscosity; Chromium; Coercive force; Damping; Frequency; Inorganic materials; Particle measurements; Pulse measurements; Remanence; Space vector pulse width modulation; Viscosity;
Journal_Title :
Magnetics, IEEE Transactions on
