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Data Storage Inst. Singapore | 論文
- Protein Stretching II : Results for Carbonic Anhydrase ( Scanning Tunneling Microscopy)
- Improved Crystalline Quality of Molecular Beam Epitaxy Grown GaAs-on-Si Epilayer through the Use of Low-Temperature GaAs Intermediate Layer
- Spectroscopic Study on ZnTBP/CA/PhR Film by Photon-Gated Hole Burning
- Conversion of Diamond-Like Carbon Film from Phenylcarbyne Polymer under Pulsed Green Laser Irradiation
- Effects of CrAl underlayer and intermediate layer on magnetic and structural properties of thin film media (マルチメディアストレージ--第5回アジア情報記録技術シンポジウム〔英文〕)
- HIGHLY ORIENTED LONGITUDINAL MEDIA FOR ULTRA-HIGH DENSITY MAGNETIC RECORDING
- Effects of CrAl Underlayer and Intermediate Layer on Magnetic and Structural Properties of Thin Film Media
- Investigation on Super-Resolution Near-Field Blu-Ray-Type Phase-Change Optical Disk with Sb_2Te_3 Mask Layer
- Super-Resolution Near-Field Phase Change Disk with Sb_Te_ Mask Layer
- New Structure of Dual-Layer Rewritable Phase-Change Optical Disc
- Noise Analysis Of Timing Recovery Loop In MDFE Recording Channel
- DESIGN AND STUDY OF A MOONIE PZT MICROACTUATOR SLIDER DRIVEN DEVICE FOR HARD DISK DRIVES
- The influence of substrate texture on time decay of magnetization for Co alloy hard disk media
- Slider-Disk Impact and Impact Induced Data Erasure in High Density Magnetic Recording Systems(Special Issue on Selected Papers from the 4th Asian Symposium for Information Storage Technology)
- Thermal Deformation Analysis of High-Density Optical Disks
- Dual-Speed Inorganic Write-Once Disk with Low-to-High Polarity
- Nonchalcogenide Inorganic Blue Laser Recordable Medium
- Highly oriented longitudinal media for ultra-high density magnetic recording (マルチメディアストレージ--第5回アジア情報記録技術シンポジウム〔英文〕)
- The Optimization of the Deposition Variables for High Photoconductivity a-Si:H Films Prepared by Electron Cyclotron Resonance Plasma Chemical Vapor Deposition
- Capacitance-Voltage Characteristics of SiO_2 Films Prepared by Electron Cyclotron Resonance Plasma Chemical Vapor Deposition as a Function of O_2 Content and Microwave Power