Title :
Trapping Electron-Assisted Magnetic Recording Enhancement via Dielectric Underlayer Media
Author :
Aksornniem, Suttipan ; Silapunt, Rardchawadee ; Vopson, Melvin Marian
Author_Institution :
Dept. of Electron. & Telecommun. Eng., King Mongkut´s Univ. of Technol. Thonburi, Bangkok, Thailand
Abstract :
Trapping electron-assisted magnetic recording (TEAMR) has been recently proposed as a method of lowering the magnetic anisotropy of magnetic data storage media during write cycles. In this paper, we studied theoretically the TEAMR feasibility when an additional dielectric nano-underlayer is incorporated within the recording medium. We report a comparative study between a standard TEAMR data storage system and a dielectric underlayer TEAMR system. Our results indicate a substantial improvement in the electron trapping mechanism when a dielectric underlayer is used. A direct consequence of the proposed system is the effective reduction of the local magnetic coercive field when using this modified TEAMR design, which opens up the possibility of future developments based on TEAMR technology.
Keywords :
coercive force; electron traps; magnetic anisotropy; magnetic recording; magnetic storage; dielectric nanounderlayer; electron trapping mechanism; local magnetic coercive field; magnetic anisotropy; magnetic data storage media; trapping electron-assisted magnetic recording enhancement; write cycles; Dielectrics; Electron traps; Magnetoelectric effects; Perpendicular magnetic anisotropy; Perpendicular magnetic recording; Advanced magnetic data storage; electron trapping-assisted recording; multiferroic data storage; perpendicular magnetic recording thin films; trapping electron-assisted magnetic recording (TEAMR);
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2014.2331024
