Analog Recording on Phase-change Optical Disks
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概要
- 論文の詳細を見る
Conventional optical recording methods strive to write a pattern of "perfect marks" on the media, then process the resulting read waveform electronically (using filters, equalizers, slicers) to extract the lengths/positions of the recorded marks.We propose to invert this process by concentrating at first on the read process, deciding which waveforms the read channel can and should supply given its particular constraints (e.g., spectral content, bandwidth, noise characteristics, restrictions of the peak amplitude, etc.).Once the desired read waveforms have been identified, we suggest strategies for recording "patterns" (e.g., amorphous/crystalline regions on phase-change media, magnetic domains on MO media) that can produce the desired waveforms during readout.By employing the heretofore forbidden mark/space patterns at the medium, the proposed analog schemes should be capable of delivering higher recording densities.Also, by allowing the system designer to match the read waveforms to channel characteristics, the proposed schemes should use the available SNR more efficiently.
- 社団法人日本磁気学会の論文
- 2001-03-15
著者
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Masud Mansuripur
Optical Sciences Center, The University of Arizona
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Miyagawa Naoyasu
Optical Disk Systems Development Center Matsushita Electric Industrial Co. Ltd.
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Miyagawa Naoyasu
Permanent address
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Miyagawa N
Matsushita Electric Ind. Co. Ltd. Osaka Jpn
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Mansuripur Masud
Optical Sciences Center The University Of Arizona
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Masud Mansuripur
Optical Sciences Center The University Of Arizona
関連論文
- Phase Change Optical Disk Using Land and Groove Method Applicable to Proposed Super Density Rewritable Disc Specifications
- Land and Groove Recording for High Track Density on Phase-Change Optical Disks
- Rewritable Dual-Layer Phase-Change Optical Disk with a Balanced Transmittance Structure
- Real-time studies of mark formation processes in phase-change and magneto-optical media using a two-laser tester
- Analog Recording on Phase-change Optical Disks
- Dependence of Capacity on Media Noise in Data Storage Systems
- Phase-Change Optical Disk Having a Nitride Interface Layer