Table of Contents

Jpn. J. Appl. Phys. Vol.39 (2000)
Part 1, No. 2B, 28 February 2000

Special Issue: Optical Memories

Basic Theory

687-692 : Three-Dimensional Finite-Difference Time-Domain Analysis of Optical Disk Storage System: Jingfeng Liu, Baoxi Xu and Tow Chong Chong
693-697 : Optical Disk Readout Analysis Using an Extended Point Spread Function: Kimihiro Saito, Kamon Uemura, Yoshiaki Kato, Satoshi Hineno, Yoshiyuki Matsumoto, Noriaki Nishi and Kiyoshi Toyota
698-706 : Polarization Effect on Signal from Optical ROM Using Solid Immersion Lens: Katsura Otaki, Hisao Osawa, Hiroshi Ooki and Jun Saito
707-710 : Equalizer Design Based on Diffraction Analysis: Yoshinori Honguh

Media

711-713 : Effects of Magnetic Properties and Layer Thickness on the Readout Performance of Magnetic Amplifying Magneto-Optical System Disks: Jin-Hong Kim, Ki-Myung Hong and Woo-Suk Choi
714-718 : New 3.5^'' Magneto-Optical Disk System: 1.3 GB GIGAMO --Technology, Design Concept and Reliability--: Ken-ichi Itoh, Hiroshi Yoshimura and Koichi Ogawa
719-724 : Applying an Objective Lens of 0.7-Numerical Aperture to a Center-Aperture-Detection Type of Magnetically Induced Superresolution Disk: Yasuhito Tanaka, Tetsu Watanabe, Masataka Shinoda, Takashi Shimouma, Yoshiteru Murakami and Akira Takahashi
725-728 : 0.04 µm Domain Expansion Readout for the Magnetic Amplifiying Magneto Optical System: Hiroyuki Awano, Masaki Sekine, Manabu Tani, Nobuko Kasajima, Norio Ohta, Kenichiro Mitani, Naoyuki Takagi and Satoshi Sumi
729-732 : New Additional Layer to Realize Initialization-Free Function for Digital Versatile Disk-Random Access Memory Disk: X. S. Miao, T. C. Chong, L. P. Shi, P. K. Tan and F. Li
733-736 : Study of the Multi-Level Reflection Modulation Recording for Phase Change Optical Disks: Lu Ping Shi, Tow Chong Chong, Pik Kee Tan, Xiang Shui Miao, Jia Jun Ho and Yong Jun Wu
737-740 : Study of the Superlattice-Like Phase Change Optical Recording Disks: Tow Chong Chong, Lu Ping Shi, Xiang Shui Miao, Pik Kee Tan, Rong Zhao and Zhong Ping Cai
741-744 : Suppression of Jitter Bump GeSbTe Phase-Change Optical Disk: Tae Hee Jeong, Hun Seo, Cheong Yeon, Jeong Woo Park, Jeong Soo Lee and Kyu Ho Park
745-751 : Investigation of Crystallization Behavior of Sputter-Deposited Nitrogen-Doped Amorphous Ge₂Sb₂Te₅ Thin Films: Hun Seo, Tae-Hee Jeong, Jeong-Woo Park, Cheong Yeon, Sang-Jun Kim and Sang-Youl Kim
752-755 : Super-Resolution Rewritable Optical Disk Having a Mask Layer Composed of Thermo-Chromic Organic Dye: Masaru Hatakeyama, Toshio Ando, Koji Tsujita, Kenji Oishi and Ichiro Ueno
756-761 : Large Capacity and High-Data-Rate Phase-Change Disks: Yutaka Kasami, Yuji Kuroda, Katsuhiro Seo, Osamu Kawakubo, Shigeki Takagawa, Masumi Ono and Masahiro Yamada
762-765 : High Data-Rate Phase-Change Media for the Digital Video Recording System: Benno Tieke, Martijn Dekker, Nicola Pfeffer, Roel van Woudenberg, Guo-Fu Zhou and Igolt P. D. Ubbens
766-769 : Recrystallization Dynamics of Phase Change Optical Disks with a Nitrogen Interface Layer: Cyril Trappe, Bernard Béchevet, Bérangère Hyot, Olaf Winkler, Stefan Facsko and Heinrich Kurz
770-774 : Overview and the Future of Phase-Change Optical Disk Technology: Takeo Ohta, Kenichi Nishiuchi, Kenji Narumi, Yasuo Kitaoka, Hiromichi Ishibashi, Noboru Yamada and Takashi Kozaki
775-778 : Cover Layer Technology for the High-Numerical-Aperture Digital Video Recording System: Michel M. J. Decré and Piet H. G. M. Vromans
779-784 : Approach for High Speed Recording of 4.7 GB Digital Versatile Disc-Recordable: Toru Fujii, Toshiaki Tajima, Ryo Negishi, Isao Okitsu, Yuji Tomizawa, Isao Matsuda and Emiko Hamada
785-788 : Ten-Year Overview and Future Prospects of Write-Once Organic Recordable Media: Emiko Hamada, Yoshikazu Takagishi, Takanori Yoshizawa, Toru Fujii, Ryo Negishi and Takeshi Nakajima
789-796 : Using Tungsten Oxide Based Thin Films for Optical Memory and the Effects of Using IR Combined with Blue/Blue-Green Wavelengths: Rebecca Bussjager, Joseph Chaiken, Mark Getbehead, David Grucza, Captain Dan Hinkel, Thomas McEwen, Joseph Osman and Ethan Voss

Mastering

797-799 : Deep UV Mastering with a Write Compensation Technique Realizing over 20 GB/layer Capacity Disc: Minoru Takeda, Motohiro Furuki, Tsutomu Ishimoto, Kenji Kondo, Masanobu Yamamoto and Shigeo Kubota
800-805 : Near-Field Optical Head for Disc Mastering Process: Shingo Imanishi, Tsutomu Ishimoto, Yuichi Aki, Takao Kondo, Koichiro Kishima, Kenji Yamamoto and Masanobu Yamamoto
806-807 : Exposure Method Using Photoresist Mask for High-Density Optical Disk Mastering(Short Note): Akihiko Shimizu, Hideyasu Endo, Hisao Watanabe, Takashi Obara, Hiroyuki Miyata, Osamu Mizuta, Koji Takeuchi, Yuzuru Kudo and Tsuyoshi Hashiguchi

Drive Technology

808-814 : Partial Response Maximum Likelihood for Optical Data Storage Using Simple Optical Equalizers: Stephen D. Jepson, Paul W. Nutter and C. David Wright
815-818 : A Comparison of Two Coding Schemes for Generating DC-Free Runlength-Limited Sequences: Wang Yong Hong Wilson, Kees A. S. Immink, Xu Bao Xi and Chong Tow Chong
819-823 : Signal Processing for 15/27 GB Read-Only Disk System: Fumihiko Yokogawa, Shougo Miyanabe, Masakazu Ogasawara, Hiroki Kuribayashi, Yoshimi Tomita and Kaoru Yamamoto
824-829 : A Nonlinearity Compensated Channel Model and Partial Response Maximum Likelihood (PRML) Simulator for the High Density Optical Disc: Seong-Keun Ahn, Hyung-Nam Kim, Seong-Yun Jeong, Kyung-Chan Park and Jin-Yong Kim
830-833 : Synchronous Trigger Detection for Pulse Laser Readout on Super Resolution Erasable Optical Disks: Gung-Chian Yin, Bing-Mau Chen, Chia-Ping Tai and Han-Ping D. Shieh
834-836 : Decision-Directed Correction for Bloom in Optical Recording Channels: Srinivasan Gopalaswamy, Ng See Kee and B. Farhang-Boroujeny
837-839 : Electronic Crosstalk Cancellation with a Quadrant Cell Detector: Robert S. Upton, Farhad Akhavan, Tom D. Milster, Michael Schweisguth, Warren L. Bletscher, J. Kevin Erwin and Anson M. Nichol
840-842 : Lens Shift Correction in Tracking Servo System for Digital Versatile Rewritable Disc: Tetsuya Shihara, Katsuya Watanabe, Shin'ichi Kadowaki and Hiromichi Ishibashi
843-845 : An Experimental Model of Sled System in an Optical Disk Drive: Jinsong Han, Kai Meng Hock, Wenhua Li, Tow Chong Chong, Kenji Shintani, Tong Kok Leong and Raymond Rayaraj
846-854 : High Frequency Wobbles: A Write Clock Generation Method for Rewritable Digital Versatile Disk (DVD) That Enables Near Drop-In Compatibility with DVD-Read Only Memories (DVD-ROMs): Daniel Abramovitch, David Towner, Craig Perlov, Josh Hogan, Michael Fischer, Carol Wilson, Ilkan \`Cokgör and Carl Taussig
855-861 : Improvement of Performance of a Tracking Servo System for an Optical Disk Drive: Kiyotaka Arai, Hideyo Okumura, Haruki Tokumaru and Kiyoshi Ohishi
862-866 : Fast-Access Optical Drive: Jeroen Wals, Jadranko Dovic, Arnold J. Niessen, Marcel Rieck and Rob M. G. Rijs
867-870 : Track Center Servo and Radial Tilt Servo System for a Digital Versatile Rewritable Disc (DVD-RAM): Shin-ichi Yamada, Seiji Nishiwaki, Atsushi Nakamura, Takashi Ishida and Hiroyuki Yamaguchi
871-872 : New 8-15 Modulation Code and Reproducing Techniques for High-Density Optical Recording(Short Note): Atsushi Hayami, Junichiro Tonami, Masaki Mochizuki, Tsuyoshi Oki, Hideki Nakamura, Takumi Hayashiyama, Koji Suzuki and Ken Miyazaki
873-874 : Tilt Servo Using Modal Wavefront Actuator(Short Note): Hsiao-Wen Lee, Li-ding Wei and Jwo-Ming Jou

Components

875-876 : Aspherical Supersphere Solid Immersion Lens for Near-Field Optical Recording: Liu Minyu, Xu Baoxi, Chong Tow Chong, Yuan Gaoqiang and Bah Chee Yang
877-882 : Optical Pickup Employing a Hologram-Laser-Photodiode Unit: Shinya Yoshida, Kohji Minami, Kuniaki Okada, Hiroyuki Yamamoto, Tetsuo Ueyama, Keiji Sakai and Yukio Kurata
883-887 : High Bandwidth Electro-optic Scanner for Optical Data Storage: Jinhui Zhai, Yuhong Huang, Steve Schroeck, W. Messner, Daniel D. Stancil and T. E. Schlesinger
888-891 : Proposal of a Near-Field Optical Head Using a New Solid Immersion Mirror: Kiichi Ueyanagi and Takao Tomono
892-896 : Flat Intensity Lens with High Optical Efficiency and Small Spot Size for Use in Optical Disc: Fumihiro Tawa, Shin-ya Hasegawa, Akio Futamata and Takashi Uchiyama
897-901 : Pupil Plane Filtering for Optical Pickup Heads with Effective Numerical Aperture of 1.1 and 2.0: Kei Shimura, Tom D. Milster, Joshua S. Jo and Kusato Hirota
902-905 : Superresolution Using a Vertical-Cavity Surface-Emitting Laser (VCSEL) with a High-Order Laguerre-Gaussian Mode: Richard A. Flynn, Osman Kibar, Daniel Hartmann and Sadik Esener
906-907 : Photo-Polymer Objective Lens for Red Blue Lasers(Short Note): Noriaki Murao, Hajime Koyanagi, Katsuhiro Koike and Sakashi Ohtaki

Optical Storage Systems and Applications

908-911 : Terminal Attractor Optical Associative Memory for Pattern Recognition: Xin Lin, Masahiko Mori, Junji Ohtsubo and Masanobu Watanabe
912-919 : Optical Disc System for Digital Video Recording: Tatsuya Narahara, Shoei Kobayashi, Masayuki Hattori, Yoshihide Shimpuku, Gijs J. van den Enden, Joost A. H. M. Kahlman, Marten van Dijk and Roel van Woudenberg
920-924 : High-Speed Optical Library System Using Digital Versatile Disk Random Access Memory: Takaya Tanabe, Tetsu Ura and Manabu Yamamoto
925-928 : A Rewritable Optical Disk with a New Addressing Method for Increasing Recording Density and Random Accessibility: Sang-Woon Suh, Dae-Young Kim, Il-Yong Jong, Jong-Wook Park and Jin-Yong Kim
929-932 : The Development of a Novel Optical Floppy Disk Drive Using a Phase Change Optical Medium and a Quasi-Near-Field Optical Head: Young-Joo Kim, Yutaka Hasegawa and Kenya Goto

High Density Recording

933-936 : 27.4 Gbyte Read-Only Dual-Layer Disc for Blue Lasers: Takanobu Higuchi and Hajime Koyanagi
937-942 : Optical Disk Recording Using a GaN Blue-Violet Laser Diode: Isao Ichimura, Fumisada Maeda, Kiyoshi Osato, Kenji Yamamoto and Yutaka Kasami
943-947 : Magneto-Optical Disk for Blue Lasers: Yuichi Sabi, Kimitaka Kawase, Kazunori Yamaguchi, Nobuhiko Ando, Yasuaki Maeda, Tsutomu Harada and Masaki Kanno
948-951 : Theoretical Analysis of Recording Light Distribution in Phase-Change Near-Field Recording Using Solid Immersion Lens: Jingfeng Liu, Tow Chong Chong and Baoxi Xu
952-956 : Three-Dimensional Thermal Modelling and Analysis of Near-Field Phase Change Optical Disks: Jia Jun Ho, Jek Chong Lee, Tow Chong Chong and Luping Shi
957-961 : The Characteristics and the Potential of Super Resolution Near-Field Structure: Junji Tominaga, Hiroshi Fuji, Akira Sato, Takashi Nakano and Nobufumi Atoda
962-967 : Near-Field Phase-Change Optical Recording of 1.36 Numerical Aperture: Isao Ichimura, Koichiro Kishima, Kiyoshi Osato, Kenji Yamamoto, Yuji Kuroda and Kimihiro Saito
968-972 : Near-Field Phase Change Optical Recording Using a GaP Hemispherical Lens: Kusato Hirota, Tom D. Milster, Kei Shimura, Yan Zhang and Joshua S. Jo
973-975 : Design of a Near-Field Probe for Optical Recording Using a 3-Dimensional Finite Difference Time Domain Method: Kusato Hirota, Tom D. Milster, Yan Zhang and J. Kevin Erwin
976-977 : High-Density and High-Data-Transfer-Rate Optical Disk with Blue Laser Diode and Ag-In-Sb-Te Phase-Change Material(Short Note): Michiaki Shinotsuka, Nobuaki Onagi and Makoto Harigaya
978-979 : Optical Disk System Using a High-Numerical Aperture Single Objective Lens and a Blue LD(Short Note): Makoto Itonaga, Shuichiro Chaen, Eiji Nakano, Hideki Nakamura, Fumihiko Ito, Kazumi Iwata, Tetsuya Kondo, Eiji Nakagawa, Takeo Kojima, Akira Nishizawa and Ken Miyazaki
980-981 : A Near-Field Recording and Readout Technology Using a Metallic Probe in an Optical Disk(Short Note): Hiroshi Fuji, Junji Tominaga, Liqiu Men, Takashi Nakano, Hiroyuki Katayama and Nobufumi Atoda
982-983 : Dynamic Aperture of Near-Field Super Resolution Structures(Short Note): Din Ping Tsai, Chi Wen Yang, Wei Chih Lin, Fu Han Ho, Hung Ji Huang, Ming Yish Chen, Tzu Feng Tseng, Chiu Hsiang Lee and Chwei Jing Yeh
984-985 : Near-Field Optical Recording by Reflection-Mode Near-Field Scanning Optical Microscope: Submicron-Sized Marks and Their Thermodynamic Stability(Short Note): Myong R. Kim, June-Hyoung Park and Wonho Jhe
986-987 : Challenge to Several-Tens-nm/Bit Recording Using Domain Wall Displacement Detection Medium(Short Note): Shunji Yoshimura and Atsushi Fukumoto

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