Improvement of Recording Density of Amorphous TbFeCo Magnetic Recording Layer on FeC Soft Magnetic Back Layer : Magnetism
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概要
- 論文の詳細を見る
- 社団法人応用物理学会の論文
- 2002-06-15
著者
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Kawano Hiroyasu
Fujitsu Laboratories Ltd.
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MORIKAWA Takeshi
Fujitsu Laboratories Ltd.
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MATSUMOTO Koji
Fujitsu Laboratories Ltd.
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SHONO Keiji
Fujitsu Laboratories Ltd.
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Shono K
Storage Systems Laboratories Fujitsu Laboratories Ltd.
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Matsumoto Koji
Fujitsu Laboratories Ltd
関連論文
- Magnetic Nanodot Array Formation by Exfoliation of Sputter-Deposited Magnetic Thin Films
- Improvement of Magnetic Recording Characteristics by Narrowing the Array Pitch of Nanohole Patterned Media
- Suppression of Spike Noise from FeCSi Film for Backlayer of Double-Layered Perpendicular Magnetic Recording Medium
- Improvement of Recording Density of Amorphous TbFeCo Magnetic Recording Layer on FeC Soft Magnetic Back Layer : Magnetism
- Magnetic Properties and Noise Characteristics of FeC Film for Backlayer of Double-layered Perpendicular Magnetic Recording Medium
- Relationship between Crosstalk and Readout Magnetic Field Direction on Trilayer Magnetically-Induced Super Resolution Media
- Effect of Electron Injection at the Pt-interface on a Bipolar Resistance Switching Device with Ta/Pr_Ca_MnO_3/Pt Structure
- Enhancement of Switching Capability on Bipolar Resistance Switching Device with Ta/Pr_Ca_MnO_3/Pt Structure
- Origin of Negative Differential Resistance Observed on Bipolar Resistance Switching Device with Ti/Pr_Ca_MnO_3/Pt Structure
- Magnetic Anisotropy in FeSiC Soft Magnetic Thin Film
- First Surface Magneto-Optical Recording of Over 36Gbit/in^2 Using Domain Expansion Media
- Improved Recording Resolution of Amorphous RE-TM Alloy Perpendicular Magnetic Recording Media
- TbFeCo as a Perpendicular Magnetic Recording Material
- Magnetic Recording on Magneto-Optical Media Using Merge Type Giant Magneto-Resistive Head
- Very High-Density Recording on Exchange-Coupled Trilayer Magnetically Induced Super Resolution Media without Special Initializing Magnet
- Overwrite on Sputtered Garnet Media Using Magnetic Field Modulation : Media
- Overwrite on Sputtered Garnet Media Using Magnetic Field Modulation
- Rear Aperture Detection on Magnetostatically Coupled Magnetically Induced Superresolution Medium
- Improvement of Magnetic Recording Characteristics by Narrowing the Array Pitch of Nanohole Patterned Media
- First Surface Magneto-Optical Recording of Over 36 Gbit/in2 Using Domain Expansion Media
- Suppression of Spike Noise from FeCSi Film for Backlayer of Double-Layered Perpendicular Magnetic Recording Medium