Simulation study of determining factors for write margins in patterned media
スポンサーリンク
概要
- 論文の詳細を見る
- 映像情報メディア学会の論文
- 2006-11-09
著者
-
Honda Naoki
Faculty of Engineering, Tohoku Institute of Technology
-
Honda Naoki
Research Institute For Iron Steel And Other Metals Tohoku University
-
Ouchi Kazuhiro
Research Institute Of Advanced Technology Akita Prefectural R & D Center:faculty Of Systems Scie
-
Honda Naoki
Faculty Of Engineering Tohoku Institute Of Technology
-
Yamakawa Kiyoshi
Ait Akita Prefectural R & D Center
-
Ouchi Kazuhiro
Ait Akita Prefectural R & D Center
-
YAMAKAWA Kiyoshi
Research Institute of Advanced Technology, Akita Prefectural R & D Center
-
Ouchi Kazuhiro
Research Institute For Advanced Science And Technology Osaka Prefecture University
関連論文
- Simulation study of bit patterned media with inclined anisotropy for recording density of 5 Tbit/in[2] (特集 ナノマグネティクス技術とその応用)
- Lattice Distortion and Elastic Properties of Antiferromagnetic γ Mn-Ni Alloys
- The Orthorhombic Distortion in γ Manganese Alloys Containing Nickel
- Simulation study of effect of dispersions and structure on recording performances at high recording densities in perpendicular magnetic recording media(Head materials & recording media,The 8th Asian Symposium on Information Storage Technology (ASIST-8))
- Simulation study of bit patterned media with inclined anisotropy for recording density of 5 Tbit/in[2] (特集 ナノマグネティクス技術とその応用)
- Simulation Study of Factors That Determine Write Margins in Patterned Media(Recent Progress of High-Density Information Storage)
- Simulation study of determining factors for write margins in patterned media
- Simulation study of determining factors for write margins in patterned media(Patterned media & MRAM,The 8th Asian Symposium on Information Storage Technology (ASIST-8))
- Quasi-Static Read/Write Tester with Sliding Reciprocation for Perpendicular Magnetic Recording(Recent Progress of High-Density Disk Storage)
- Magnetostatic Spin Waves in Sputtered Ferromagnetic Films with Perpendicular Anisotropy : CoCr
- 2.43 μm Light Emission of InGaAsSbN Quantum Well Diodes Grown on InP Substrates
- Simulation study of effect of dispersions and structure on recording performances at high recording densities in perpendicular magnetic recording media
- Simulation study of effect of dispersions and structure on recording performances at high recording densities in perpendicular magnetic recording media
- Simulation Study of Effect of Dispersions on Recording Performances in Perpendicular Magnetic Recording Media(Recent Progress of High-Density Information Storage)