Design and Fabrication Technology of Optical Flying Head for First Surface Magneto-Optical Recording
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概要
- 論文の詳細を見る
- Publication Office, Japanese Journal of Applied Physics, Faculty of Science, University of Tokyoの論文
- 2003-02-28
著者
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Yee Youngjoo
Microsystem Group Lg Electronics Institute Of Technology
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Kim Jin-yong
Digital Media Research Lab. Lg Electronics
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Jeong Hewon
Digital Media Research Laboratory Lg Electronics
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Jeong Hewon
Digital Media Research Lab. Lg Electronics
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Kim Jin-yong
Digital Media Research Laboratory Lg Electronics
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Park Gunsoon
Digital Media Research Laboratory Lg Electronics
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Park Jin-moo
Digital Media Research Laboratory Lg Electronics
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Kim Sookyung
Digital Media Research Lab. Lg Electronics
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Kim Sookyung
Digital Media Research Laboratory Lg Electronics
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Park Jin-moo
Digital Media Research Lab. Lg Electronics
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CHOI Junghoon
Microsystem Group, LG Electronics Institute of Technology
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Choi Junghoon
Microsystem Group Lg Electronics Institute Of Technology
関連論文
- Near-Field Magneto-Optical Media
- 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
- 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
- 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