Integrated Thermal and Optical Analyses of Phase-Change Optical Disk
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概要
- 論文の詳細を見る
An integrated analysis system based on thin film optics, thermal transfer and electromagnetics is developed. Thermal conductivity and generated heat are discussed for mark formation. The simulations of multilayer calorific sources and multibeam heating sources using the finite element method (FEM) are investigated. The readout of nanometer-scaled marks based on computational electromagnetics using the finite-difference time-domain (FDTD) analysis is discussed. The real marks captured with microscopes can be analyzed using this integrated analysis system combined with digital image technology. Material models in the electromagnetic vector method are discussed with reference to different layers of disk. It provides a powerful tool for structure design and failure analysis of phase-change optical disks.
- Published by the Japan Society of Applied Physics through the Institute of Pure and Applied Physicsの論文
- 2004-07-15
著者
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Chong T.
Data Storage Inst. Singapore
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Shi L.
Data Storage Institute
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MIAO X.
Data Storage Institute
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LI J.
Data Storage Institute
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YANG H.
Data Storage Institute
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Lim K.
Data Storage Inst. Singapore
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Miao X.
Data Storage Institute, DSI Building, 5, Engineering Drive 1, Singapore 117608
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Chong T.
Data Storage Institute, DSI Building, 5, Engineering Drive 1, Singapore 117608
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Li J.
Data Storage Institute, DSI Building, 5, Engineering Drive 1, Singapore 117608
-
Lim K.
Data Storage Institute, DSI Building, 5, Engineering Drive 1, Singapore 117608
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- 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
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- Study of the Partial Crystallization Properties of Phase-Change Optical Recording Disks
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- Three-Dimensional Thermal Modelling and Analysis of Near-Field Phase Change Optical Disks
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- Investigation on Mechanism of Aperture-Type Super-Resolution Near-Field Optical Disk
- Initialization-Free Blue-Laser Optical Disc
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- 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
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- Properties and Reactive Sputtering Parameters of GeN Film for High-Density Phase-Change Optical Disk
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