Title :
Micromagnetic Dynamics of Single-Domain Grain in Thin-Film Magnetic Recording Media
Author :
Elidrissi, Moulay Rachid ; Bastrukov, S. ; Wang, H.T. ; Khoo, J.Y. ; Chan, Kheong Sann ; Eason, Kwaku
Author_Institution :
Disk Drive Syst. Div., Agency for Sci., Technol. & Res. (A*STAR), Singapore, Singapore
Abstract :
This paper reports a micromagnetic study of single-domain-grain dynamics in a thin-film magnetic recording medium which is used in the hard disk drive industry today. The behavior of the magnetization-vector of an individual grain is modeled by a modified Landau-Lifshitz (MLL) equation with the damping torque originating from the coupling between the magnetization and stresses of the intrinsic and extrinsic magnetic anisotropy. An analytic two-parameter formula governing the magnetization-vector reversal as a function of precession frequency is derived from the equation of magnetization energy loss. This equation depends on material-dependent parameters which are deduced from ferromagnetic resonance measurements. The results show a characteristic feature of magnetization reversal, a transient quasi-stationary state. This state is generally a property of multilayered thin-film recording media and can cause shortening of the relaxation time to the picosecond regime.
Keywords :
disc drives; ferromagnetic resonance; hard discs; magnetic anisotropy; magnetic recording; magnetic thin films; magnetisation reversal; micromagnetics; torque; damping torque; extrinsic magnetic anisotropy; ferromagnetic resonance measurement; hard disk drive industry; magnetization energy loss; magnetization vector reversal; material dependent parameters; micromagnetic dynamics; modified Landau-Lifshitz equation; precession frequency; single domain grain; thin film magnetic recording media; transient quasistationary state; Ferromagnetic resonance; magnetic recording medium; micromagnetics;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2013.2257705
