Title :
Development of NanoCAP technology for high-density recording
Author :
Sasaki, Y. ; Usuki, N. ; Matsuo, K. ; Kishimoto, M.
Abstract :
For high-density recording tape, NanoCAP was developed using co-precipitation and nitridation treatment in an NH3 gas atmosphere. Each particle has a spherical shape with a diameter of about 17 nm and a core-shell structure. The core and shell mainly consist of the Fe16N2 and oxides containing Al and Y, respectively. The saturation magnetization and the coercive force are 85.5 A·m2/kg (85.5emu/g) and 227 kA/m (2850 Oe), respectively. The coercive force is a higher value that of the needle-shaped particles currently used and is stable from room temperature to 323 K. The higher coercive force originates from an uniaxial magnetic anisotropy of the Fe16N2.
Keywords :
coercive force; magnetic anisotropy; magnetic particles; magnetic recording; magnetic tapes; nanotechnology; nitridation; powder cores; precipitation; NanoCAP technology; coercive force; core-shell structure; gas atmosphere; high-density recording tape; magnetic tape recording; nanotechnology; needle-shaped particles; nitridation treatment; powdered magnetic materials; precipitation treatment; saturation magnetization; spherical shape; uniaxial magnetic anisotropy; Anisotropic magnetoresistance; Atmosphere; Coercive force; Iron; Magnetic anisotropy; Magnetic cores; Magnetic recording; Perpendicular magnetic anisotropy; Saturation magnetization; Shape memory alloys; Coercive force; magnetic tape recording; nanotechnology; powdered magnetic materials;
Journal_Title :
Magnetics, IEEE Transactions on
DOI :
10.1109/TMAG.2005.855247
