Development of Recording Stacks for a Rewritable Dual-Layer Optical Disc
スポンサーリンク
概要
- 論文の詳細を見る
In this paper results are presented on the development of recording layers for a rewritable dual-layer phase-change optical disc. The disc is based on the digital video recording (DVR) system utilising a blue laser and a high numerical-aperture objective lens. With such a disc the capacity of the DVR system could be increased to about 45 GB. Various stack designs, write strategies and recording characteristics of the media are discussed. For each recording layer a design with a fairly good performance is found.
- 社団法人応用物理学会の論文
- 2002-03-30
著者
-
Hellmig J
Philips Res. Lab. Eindhoven Nld
-
Hellmig Jochen
Philips Research Laboratories
-
Borg Herman
Philips Optical Disc Technology Centre. Glaslaan
-
MEINDERS Erwin
Philips Research Laboratories
-
Mijiritskii Andrei
Philips Research Laboratories Prof
-
Meinders Erwin
Philips Research Laboratories Prof
-
Meinders Erwin
Philips Optical Media and Technology, Glaslaan 2, 5616 LD, Eindhoven, The Netherlands
関連論文
- System Aspects of Dual-Layer Phase-Change Recording with High Numerical Aperture Optics and Blue Laser
- Phase-Transition Mastering of High-Density Optical Media
- Phase-Transition Mastering of High-Density Optical Media
- Recent Developments in Thermal Modelling of High-Speed Dye Recording
- Thermally Balanced Writing for High-Speed Compact Disc Recordable (CD-R) Recording
- Thermal Cross-Erase Issues in High-Data-Density Phase-Change Recording
- Development of Recording Stacks for a Rewritable Dual-Layer Optical Disc
- Dual-Layer Blu-ray Disc Based on Fast-Growth Phase-Change Materials
- Phase-Change Media for High-Numerical-Aperture and Blue-Wavelength Recording
- Liquid Immersion Deep-UV Optical Disc Mastering for Blu-ray Disc Read-Only Memory
- High-Speed $16\times$ Digital Versatile Disk Dye Recording
- Phase-Change Media for Ultrahigh-Speed Digital Versatile Disc Recording
- System Aspects of Dual-Layer Phase-Change Recording with High Numerical Aperture Optics and Blue Laser
- Recent Developments in Thermal Modelling of High-Speed Dye Recording
- Determination of the Crystallisation Kinetics of Fast-Growth Phase-Change Materials for Mark-Formation Prediction