Nonchalcogenide Inorganic Blue Laser Recordable Medium
スポンサーリンク
概要
- 論文の詳細を見る
A new nonchalcogenide inorganic blue laser recordable disk was successfully developed using a Pd-based metallic glass, which transformed from the amorphous state to the crystalline state upon laser irradiation. The optical properties and thermal properties of the Pd-based metallic glass thin film were studied. A recordable optical disk was prepared with a simple disk structure, which included only a dielectric layer and a recording layer, for an optical system based on a blue-violet laser diode and an objective lens with a high numerical number (NA) of objective lens of 0.85. The recording performance of the blue laser recordable disk was evaluated. The readout stability and archival lifetime were verified for the blue laser recordable disk.
- 2006-02-15
著者
-
Chong T.
Data Storage Inst. Singapore
-
Shi L.
Data Storage Institute
-
HU X.
Data Storage Institute
-
MIAO X.
Data Storage Institute
-
Chong T.
Data Storage Institute, DSI Building, 5 Engineering Drive 1, Singapore 117608
関連論文
- Study of the Dynamic Crystallization Behavior of GeSbTe Phase Change Optical Disk
- Rewritable Dual-Layer Initialization-Free Phase-Change Optical Disk
- Optical Transition of Chalcogenide Phase-Change Thin Films
- Multispeed Superlattice-Like Phase Change Optical Disk
- Temperature Dependence of Phase Change Random Access Memory Cell
- Enhanced Scattering of Random-Distribution Nanoparticles and Evanescent Field in Super-Resolution Near-Field Structure
- Initialization-Free Blue-Laser Optical Disc
- Substrate Deformation Studies on Direct Overwriting of Phase-Change Rewritable Optical Disc with Germanium Nitride Interface Layers
- New Improvement Methods for Multispeed Initialization-Free Phase-Change Optical Disk
- Integrated Thermal and Optical Analyses of Phase-Change Optical Disk
- Properties and Reactive Sputtering Parameters of GeN Film for High-Density Phase-Change Optical Disk
- New Approach to Initialization-Free Phase-Change Optical Disk
- Fractal-Based Studies on Irregular Marks of High-Density Phase-Change Optical Media
- Superlattice-Like Structure for High Recording Speed Phase Change Optical Discs
- New Additional Layer to Realize Initialization-Free Function for Digital Versatile Disk-Random Access Memory Disk
- Study of the Partial Crystallization Properties of Phase-Change Optical Recording Disks
- Dependence of Optical Constants on Film Thickness of Phase-Change Media
- A New Structure of Super-Resolution Near-Field Phase-Change Optical Disk with a Sb_2Te_3 Mask Layer
- Three-Dimensional Thermal Modelling and Analysis of Near-Field Phase Change Optical Disks
- Study of the Superlattice-Like Phase Change Optical Recording Disks
- Study of the Multi-Level Reflection Modulation Recording for Phase Change Optical Disks
- Thermal Modeling of Grooved Phase Change Optical Recording Disk
- Simulation and Characteristics of Phase Change Optical Disk
- 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
- 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〕)
- Constrained Parity-Check Code and Post-Processor for Advanced Blue Laser Disc Systems
- Initialization-Free Multispeed Blue Laser Optical Disc
- Investigation on Mechanism of Aperture-Type Super-Resolution Near-Field Optical Disk
- Initialization-Free Blue-Laser Optical Disc
- Integrated Thermal and Optical Analyses of Phase-Change Optical Disk
- Near-Field Characteristics and Signal Enhancement of Super-Resolution Near-Field Structure Disk with Metal Nanoparticles
- Substrate Deformation Studies on Direct Overwriting of Phase-Change Rewritable Optical Disc with Germanium Nitride Interface Layers
- Enhanced Scattering of Random-Distribution Nanoparticles and Evanescent Field in Super-Resolution Near-Field Structure
- Local Thermal Expansion in Super-Resolution Near-Field Structure
- Multispeed Superlattice-Like Phase Change Optical Disk
- Temperature Dependence of Phase-Change Random Access Memory Cell
- New Improvement Methods for Multispeed Initialization-Free Phase-Change Optical Disk
- Rewritable Dual-Layer Initialization-Free Phase-Change Optical Disk
- Study of the Dynamic Crystallization Behavior of GeSbTe Phase Change Optical Disk
- Optical Transition of Chalcogenide Phase-Change Thin Films