Multi-Beam Optical Disk Drive for High Data Transfer Rate Systems : Drive Technology
スポンサーリンク
概要
- 論文の詳細を見る
- 社団法人応用物理学会の論文
- 1992-03-31
著者
-
Tsunekane Masaki
Opto-electronics Research Laboratories Nec Corporation
-
KATAYAMA Ryuichi
Opto-Electronics Research Laboratories, NEC Corp.
-
YOSHIHARA Kazuhiro
Opto-Electronics Research Laboratories, NEC Corporation
-
YAMANAKA Yutaka
Opto-Electronics Research Laboratories, NEC Corporation
-
KAYANUMA Kinji
Functional Devices Research Laboratories, NEC Corporation
-
IWANAGA Toshiaki
Functional Devices Research Laboratories, NEC Corporation
-
OKADA Osamu
Functional Devices Research Laboratories, NEC Corporation
-
ONO Yuzo
Opto-Electronics Research Laboratories, NEC Corporation
-
Yoshihara Kazuhiro
Opto-electronics Research Laboratories Nec Corporation
-
Yoshihara K
Laboratory Of Public Health School Of Pharmacy Tokyo University Of Pharmacy And Life Science
-
Ono Y
Opto-electronics Research Laboratories Nec Corporation
-
Ono Y
Ntt Basic Res. Lab. Kanagawa Jpn
-
Ono Yuzo
Opto-electronics Research Laboratories Nec Corporation
-
Kayanuma Kinji
Functional Devices Research Labolatories Nec Corporation
-
Okada O
Anelva Corp. Tokyo Jpn
-
Yamanaka Y
Nec Corp. Kawasaki Jpn
-
Iwanaga T
Functional Devices Research Laboratories Nec Corporation
-
Iwanaga Toshiaki
Functional Devices Research Laboratories Nec Corporation
-
KATAYAMA Ryuichi
Optical Recording Technology Development Center, NEC Corporation
-
Katayama R
Functional Devices Research Laboratories Nec Corporation
-
Katayama Ryuichi
Opto-electronics Research Laboratories Nec Corp.
関連論文
- Analysis of Scattering Light from Magnetic Material with Land/Groove by Three-Dimensional Boundary Element Method
- Multi-Beam Optical Disk Drive for High Data Transfer Rate Systems : Drive Technology
- Multi-Beam Optical Disk Drive for High Data Transfer Rate Systems
- Monolithic Eight-Channel High-Power Low-Astigmatism AlGaAs Laser Diode Array
- In Situ X-Ray Monitoring of Metalorganic Vapor Phase Epitaxy
- Improved Self-Aligned Structure for GaAlAs High-Power Lasers
- Improvement in Jitter Characteristics in Mark Edge Recording for Phase Change Media
- High-Density Land/Groove Recording for Digital Video File System
- Determination of Urinary Pyrraline by Solid-Phase Extraction and High Performance Liquid Chromatography
- High-Density Recording Using Mark Length Recording Method for Magnetooptical Disk : High Density Recording
- High-Density Recording Using Mark Length Recording Method for Magnetooptical Disk
- Compact Magneto-Optical Head Module Integrated with Chip Elements using Double Holograms
- Thin Optical Head with Flip-Chip Bonded Module for Compact Disc Read Only Memory Drives
- Effects of foil thickness on measurement of grain boundary segregation with FEG-TEM/EDS in austenitic stainless steels
- Reaction of Copper Oxide and β-Diketone for In situ Cleaning of Metal Copper in a Copper Chemical Vapor Deposition Reactor
- Deposition Rate and Gap Filling Characteristics in Cu Chemical Vapor Deposition with Trimethylvinylsilyl Hexafluoro-acetylacetonate Copper (I)
- Optimization of Write Strategy in a Partial-Response-Maximum-Likelihood System for High-Density Recording
- Preparation of Ti-Al-N Electrode Films by Pulsed Laser Ablation for Lead-Zirconate-Titanate Film Capacitors
- Fatigue Behavior in Lead-Zirconate-Titanate Thin-Film Capacitors Prepared by Pulsed Laser Ablation on Ni-Alloy Electrodes
- Optimization of Write Strategy in a Partial-Response-Maximum-Likelihood System for High-Density Recording
- Measurement of electron beam broadening in stainless steels during EDS analysis in the FEG-TEM
- Holographic Optical Element with Analyzer Function for Magneto-Optical Disk Head
- Optical Module Using Double-Sided Polarizaing Diffractive Optical Element for Digital Versatile Disc Drives
- Radial and Tangential Tilt Detection for Rewritable Optical Disks
- Dual Wavelength Optical Head for 0.6 mm and 1.2 mm Substrate Thicknesses
- High Performance Optical Head using Optimized Holographic Optical Element : COMPONENTS
- Land/Groove Signal and Differential Push-Pull Signal Detection for Optical Disks by an Improved 3-Beam Method