Design of Optical Flying Head for Near-Field Recording
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概要
- 論文の詳細を見る
The Optical Flying Head (OFH) was designed and fabricated for implementation of the Near-Field Recording (NFR) technology. The optimum structure of the head for integration with the optical parts has been developed. Also, the basic flying characteristics and optical performance of the OFH mounted with high NA optics were tested and evaluated. Contact-Start-Stop (CSS) tests were performed to assess the flyability of the OFH. It was found that the OFH developed for NFR could fly above the disk media at a flying height of less than 100 nm. The flying performance of the OFH was adequate to demonstrate the feasibility of the NFR technology.
- 社団法人日本磁気学会の論文
- 2002-10-01
著者
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Kim J‐y
Lg Electronics Seoul Kor
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Lee Jung-kyu
Dept. Of Mechanical Engineering Yonsei University
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Kim J‐h
Digital Media Research Lab. Lg Electronics
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Kim Sookyung
Digital Media Research Lab., LG Electronics
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Chung Koo-Hyun
Dept. of Mechanical Engineering, Yonsei University
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Kim Dae-Eun
Dept. of Mechanical Engineering, Yonsei University
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Kim Youngsik
Digital Media Research Lab., LG Electronics
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Park Jin-Moo
Digital Media Research Lab., LG Electronics
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Kim Jin-Yong
Digital Media Research Lab., LG Electronics
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Chung Koo-hyun
Dept. Of Mechanical Engineering Yonsei University
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Kim Jin-yong
Digital Media Research Lab. Lg Electronics
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Park J‐m
Lg Electronics Seoul Kor
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Kim Dae-eun
Dept. Of Mechanical Engineering Yonsei University
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Kim Youngsik
Digital Media Research Lab. Lg Electronics
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Kim Sookyung
Digital Media Research Lab. Lg Electronics
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Park Jin-moo
Digital Media Research Lab. Lg Electronics
関連論文
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- Design of Optical Flying Head for Near-Field Recording
- Near Field MO Recording System (Invited Paper)
- Effective Design and Performance of an Optical Flying Head for Near-Field Recording
- An Optical Flying Head Assembly for a Small-Form-Factor Plastic Disk in PCMCIA-Like Drive
- Methods of Achieving Compatibility between High-Density Disk and Digital Versatile Disk Using a Bi-aspherical Singlet and a Wavefront Compensation Element
- A Nonlinearity Compensated Channel Model and Partial Response Maximum Likelihood(PRML) Simulator for the High Density Optical Disc
- Force Characteristics of Slim Pickup Actuator to Improve Actuating Performances
- Design and Fabrication Technology of Optical Flying Head for First Surface Magneto-Optical Recording
- A Rewritable Optical Disk with a New Addressing Method for Increasing Recording Density and Random Accessibility
- Head-Disk Interface in Near-Field Recording Disks
- An Optical Flying Head Assembly for a Small-Form-Factor Plastic Disk in PCMCIA-Like Drive
- Force Characteristics of Slim Pickup Actuator to Improve Actuating Performances
- Design and Fabrication Technology of Optical Flying Head for First Surface Magneto-Optical Recording