Implementation of Practical Super-Resolution Near-Field Structure System Using Commercial Drive
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概要
- 論文の詳細を見る
The implementation of a practical super-resolution near-field structure (Super-RENS) system using an existing commercial drive is achieved. Using ZnO-type Super-RENS discs as storage media, the commercial drive can perform mark position recording at a mark size of 220 nm and correctly retrieve the recorded signal.
- 2006-02-15
著者
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Tsai Din
Department Of Physics And Center For Nanostorage Research National Taiwan University
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Wu Chia
Advanced Research Division, LITE-ON IT Corporation, 5F, 12, Li-Hsin Road, Science-Based Industrial Park, Hsinchu, Taiwan 30078, Republic of China
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Liao Allen
Advanced Research Division, LITE-ON IT Corporation, 5F, 12, Li-Hsin Road, Science-Based Industrial Park, Hsinchu, Taiwan 30078, Republic of China
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Liao Allen
Advanced Research Division, LITE-ON IT Corporation, 5F, 12, Li-Hsin Road, Science-Based Industrial Park, Hsinchu, Taiwan 300, Republic of China
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Fang Jen
Advanced Research Division, LITE-ON IT Corporation, 5F, 12, Li-Hsin Road, Science-Based Industrial Park, Hsinchu, Taiwan 30078, Republic of China
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Lin Wei
Advanced Research Division, LITE-ON IT Corporation, 5F, 12, Li-Hsin Road, Science-Based Industrial Park, Hsinchu, Taiwan 30078, Republic of China
関連論文
- Dynamic Aperture of Near-Field Super Resolution Structures
- Nonlinear Optical Absorption in the AgO_x-Type Super-Resolution Near-Field Structure
- Deformation and Plasmon Effects of Deformed AgO_x-Type Super-Resolution Near-Field Structure
- Z-Scan Study of Nonlinear Optical Coupling of PtO_x and Ge_2Sb_2Te_5 of Near-Field Optical Recording Structure
- Nonlinear Near-Field Optical Effects of the AgO_x-Type Super-Resolution Near-Field Structure
- Functional Structures of AgO_x Thin Film for Near-Field Recording
- Near-Field Optics Imaging in Silica Waveguide Using Near-Field Scanning Optical Microscope
- Surface Plasmon Polariton Coupling between Nano Recording Marks and their Effect on Optical Read-out Signal
- Implementation of Practical Super-Resolution Near-Field Structure System Using Commercial Drive
- Readout Signals Enhancements of Subwavelength Recording Marks via Random Nanostructures
- Highly Birefringent Index-Guiding Photonic Crystal Fiber with Squeezed Differently Sized Air-Holes in Cladding
- $Z$-Scan Study of Nonlinear Optical Coupling of PtOx and Ge2Sb2Te5 of Near-Field Optical Recording Structure
- Metallic Nanorods Doped Optical Recording Media: The Use of Nanorods As Nano-Heat Sensitizers
- Study of a Super-Resolution Optical Structure: Polycarbonate/ZnS–SiO2/ZnO/ZnS–SiO2/Ge2Sb2Te5/ZnS–SiO2
- Rewritable and Initialization-Free AgOx-Type Super-Resolution Optical Recording Medium
- Significantly Enhanced Birefringence of Photonic Crystal Fiber Using Rotational Binary Unit Cell in Fiber Cladding
- Demonstrating Applications of Non-optically Regulated Tapping-Mode Near-Field Scanning Optical Microscopy to Nano-optical Metrology and Optical Characterization of Semiconductors
- Transmission Enhancement through Single Slit Embedded in Plasmonic Multilayer Structure
- Two-Dimensional and Three-Dimensional Analysis of Taper Structures for Coupling into and out of Photonic Crystal Slab Waveguides
- Surface Plasmon Effects on the Far-Field Signals of AgOx-Type Super Resolution Near-Field Structure
- Functional Structures of AgOx Thin Film for Near-Field Recording
- Nonlinear Near-Field Optical Effects of the AgOx-Type Super-Resolution Near-Field Structure