SOLID IMMERSION LENS AND MAGNETIC FIELD MODULATION FOR HIGH DENSITY MO RECORDING
スポンサーリンク
概要
- 論文の詳細を見る
- 2000-03-07
著者
-
SUZUKI T.
Toyota Technological Institute
-
Itoh Y.
Toyota Technological Institute
-
Stavrou E.
Toyota Technological Institute
-
SBIAA R.
Toyota Technological Institute
-
CHEKANOV A.
Toyota Technological Institute
-
BIRUKAWA M.
Toyota Technological Institute
-
R. Sbiaa
Isml Toyota Technological Institute
関連論文
- Stability of narrow track bits in a 5 Gbit/in^2 medium
- Interface Effects on Magnetic and Magneto-Optical Properties in TbFeCo/Pt Multilayers
- MAGNETIC VISCOSITY AND STABILITY OF MAGNETOOPTICAL RECORDING MEDIA
- MAGNETIC VISCOSITY AND STABILITY OF MAGNETO-OPTICAL RECORDING MEDIA (光記録・情報記録材料)
- MAGNETIC VISCOSITY AND STABILITY OF MAGNETO-OPTICAL RECORDING MEDIA
- MAGNETIC VISCOSITY AND STABILITY OF MAGNETO-OPTICAL RECORDING MEDIA
- Near Field Magnetic Modulation for High Density MO Recording
- Time-dependent magnetization behavior in magneto-optical media
- Recent Developments in Optical Recording Using Near Field Optics (特集:光磁気記録・磁性薄膜)
- SIL recording system for high-density magnetooptical media
- Enhancement of Magneto-optical Effects through NdCo and Pt in TbFeCo
- MAGNETISM AND MICROSTRUCTURE OF NANOCRYSTALLINE NICKEL
- Magnetic stripe/bubble domains and perpendicular magnetic anisotropy in Co-Ag granular thin films
- Magnetic anisotropy in Gd/(Fe, Co)-multilayers and spin reorientation for high density magneto-optical recording
- SOLID IMMERSION LENS AND MAGNETIC FIELD MODULATION FOR HIGH DENSITY MO RECORDING
- SOLID IMMERSION LENS AND MAGNETIC FIELD MODULATION FOR HIGH DENSITY MO RECORDING (光記録・情報記録材料)
- SOLID IMMERSION LENS AND MAGNETIC FIELD MODULATION FOR HIGH DENSITY MO RECORDING
- SOLID IMMERSION LENS AND MAGNETIC FIELD MODULATION FOR HIGH DENSITY MO RECORDING
- Magnetic Field Modulation MO-recording using SIL.
- MFM Analysis of Recorded Bits Written By Trimmed and Untrimmed MR Heads
- Characterization of Perpendicular Recording Media of CoPtCrO Granular Thin Films
- Magnetic Properties of Nanometer-sized Particles Fabricated by Ion Beam Induced Chemical Vapor Deposition