Title :
Interaction fields and media noise in CoPtCr thin films
Author :
Huang, P. ; Harrell, J.W. ; Parker, M.R. ; Johnson, K.E.
Author_Institution :
Center for Mater. for Inf. Technol., Alabama Univ., Tuscaloosa, AL, USA
fDate :
11/1/1994 12:00:00 AM
Abstract :
Remanence measurements have been made on a series of CoPtCr thin films of varying composition in order to correlate the interaction field with media noise. δM versus h curves have been analyzed using a phenomenological model of Che and Bertram, in which the interaction field is given by hint=αMR+β(1-MR 2), where MR=Mr (or Md). We have shown analytically that α and β can be simply determined respectively from the area under the δM versus h curve (or δh versus MR) and the zero crossing of the curve. The parameter β, which is related to the strength of the fluctuation field, was found to increase with increasing reverse dc erase noise (measured at zero remanence). Surprisingly, perhaps, no correlation was found between this noise and α. By contrast, α, which characterizes the strength of the magnetostatic and/or exchange interaction, was positive for all samples and decreased with increasing dc erase noise (measured at saturation remanence). As expected, α was also found to increase with the magnetic viscosity, S, and to decrease as the coercivity, Hc, increased
Keywords :
chromium alloys; cobalt alloys; exchange interactions (electron); magnetic recording noise; magnetic thin films; platinum alloys; remanence; CoPtCr; CoPtCr thin films; coercivity; exchange interaction; fluctuation field; interaction fields; magnetic viscosity; magnetostatic interaction; media noise; phenomenological model; remanence; reverse DC erase noise; Elementary particle exchange interactions; Fluctuations; Magnetic field measurement; Magnetic noise; Magnetostatics; Noise measurement; Remanence; Saturation magnetization; Transistors; Viscosity;
Journal_Title :
Magnetics, IEEE Transactions on
