Optical Data Storage Topical Meeting 2001
2001-03-27
org.kosen.entty.User@272c2ee4
신윤섭(ysshin97)
행사&학회소개
보고서작성신청
LG전자의 신윤섭입니다.
4월 22~25 사이에 미국의 NewMexico SantaFe에서 열리는 광기록 기술에 관한 학회에 참석합니다. 본 학회는 광기록 기술과 관련해서 미국, 일본, 유럽, 대만 및 한국의 학교와 업체들이 모여서 여는 학회로 일반 학회에 비해 현재 및 미래 기술의 진행 상황에 대한 보고가 많이 이루어집니다. 특히 이 학회의 주요 논의 내용은 매년 SPIE Proceeding으로 출판되어집니다. 주요 내용은 다음과 같습니다.
Foreword
The 2001 Optical Data Storage conference will be held during the week starting 22 April 2001. This will be the seventeenth meeting of the of the Optical Data Storage conference (ODS) and will, as usual, provide an excellent opportunity to exchange and share the latest developments and results in the dynamic field of data storage. ODS 2001 will be held in Santa Fe, New Mexico, where these exciting scientific issues will be discussed in a beautiful artistic setting. In addition to the technical sessions, a series of short courses will be presented on Sunday 22 April 2001.
Scope
This conference is a key forum for exchanging information regarding the status, future direction, and new developments in optical recording. A broad range of topics will be covered including advances in optical systems, materials, disc mastering, components and novel optical storage applications. Papers will be presented covering main stream fields such as next generation high density DVD ROM storage and phase change recording, magneto-optic and near-field recording. Contributions are encouraged from alternative storage areas, such as scanning probe, holographic, and hybrid technologies. Contributions are also encouraged from related areas such as novel coding techniques, copy protection, and industry standards
Keynote Address
DNA, Human Memory, and the Storage Technology of the 21st Century, M. Mansuripur, Optical Sciences Ctr./Univ. of Arizona (USA)
MA • Applications and Emerging Technologies
Glenn T. Sincerbox, Optical Sciences Ctr./Univ. of Arizona (USA); Ryuichi Katayama, NEC Corp. (Japan)
MA1 • DataPlay's mobile recording technology, B. W. Bell, Jr., DataPlay, Inc.
MA2 • Secure content management enabled by Kodak's CD-ROM technology, B. Ha, Eastman Kodak Co. (USA)
MA3 • 300-MB 8-cm recordable optical discs having compatibility with current CD writers and players, S. Morita, H. Konishi, M. Nishiyama, M. Ohmikawa, Nikon Corp. (Japan)
MA4 • Technical considerations for optical disks in cellular mobile terminals, J. S. Mäkelä, M. A. Juhola, Nokia Mobile Phones (Finland); J. K. Aikio, P. Karioja, VTT Electronics (Finland)
MA5 • UV embossing process for multilayered waveguide holographic memory media, K. Ishihara, H. Kubo, R. Yoshiyama, K. Yamauchi, M. Kawashima, Y. Miwa, T. Kobayashi, Mitsubishi Chemical Corp. (Japan)
MA6 • Design aspects of waveguide hybrid advanced MEMS (WHAM), J. Kim, T. D. Milster, Optical Sciences Ctr./Univ. of Arizona (USA)
MB*Media I
MB1 • Phase change material for use in rewritable dual-layer optical disk, N. Yamada, R. Kojima, M. Uno, T. Akiyama, H. Kitaura, K. Narumi, K. Nishiuchi, Matsushita Electric Industrial Co., Ltd. (Japan)
MB2 • Advances in thermal modeling of dual-layer DVR-blue fast-growth media, E. R. Meinders, H. J. Borg, M. Lankhorst, J. Hellmig, A. V. Mijiritskii,
M. J. Dekker, Philips Research Labs. (Netherlands)
MB3 • 41.8-GB double-decker phase change disc, K. Kurokawa, T. Yamasaki, T. Yukumoto, T. Nakao, K. Mano, K. Yasuda, S. Takagawa, M. Nakamura, Sony Corp. (Japan)
MB4 • 50-Gbyte read-only dual-layer disk for the high NA objective lens and blue-violet lasers, T. Higuchi, T. Imai, N. Shida, H. Nishiwaki, M. Katsumura, Pioneer Corp. (Japan)
MB5 • Basic study of write-once media for blue-violet laser, S. Ohkubo, T. Ide, M. Okada, NEC Corp. (Japan
MC*Media II
MC1 • Material characterization and application of eutectic SbTe-based phase-change optical recording media, M. Horie, T. Ohno, N. Nobukuni, K. Kiyono, T. Hashizume, M. Mizuno, Mitsubishi Chemical Corp (Japan)
MC2 • Phase-change disc for high-data-rate recording, H. Inoue, H. Hirata, T. Komaki, T. Kato, H. Shingai, N. Hayashida, H. Utsunomiya, TDK Corp. (Japan)
MC3 • Superlattice-like phase change optical disc, W. Qiang, T. Chong, National Univ. of Singapore
MC4 • Simulations of recrystallization in phase-change recording material, Y. Nishi, H. Kando, M. Terao, Hitachi Ltd. (Japan)
MC5 • Multilayer write-once medium having Te-O-Pd films utilizing blue-violet laser, H. Kitaura, K. Narumi, K. Nishiuchi, N. Yamada, Matsushita Electric Industrial Co., Ltd. (Japan)
MD*Media III
MD1 • High-density first surface magneto-optical recording using blue laser high-numerical aperture objective and flying slider, F. Zijp, Y. V. Martynov, F. C. Penning, B. van Rompaey, R. J. M. Vullers, H. W. van Kesteren, C. A. Verschuren, M. A. H. van der Aa, Philips Research Labs. (Netherlands); H. Awano, N. Ohta, Hitachi Maxell, Ltd. (Japan)
MD2 • High-density substrate incident magneto-optic recording using a solid immersion lens, D. C. Karns, D. D. Stancil, B. V. K. Vijaya Kumar, T. E. Schlesinger, Carnegie Mellon Univ. (USA)
MD3 • Recording power tolerance of magneto-optical media on RIE-formed substrate using NA 0.85 and 407-nm optics, T. Miki, T. Sakamoto, A. Nakaoki, M. Yamamoto, Sony Corp. (Japan)
MD4 • Zero field MAMMOS with double density of AS-MO, M. Tani, K. Inoue, M. Sekine, S. Imai, H. Awano, N. Ota, Hitachi Maxell, Ltd. (Japan); K. Mitani, N. Takagi, H. Terasaki, Sanyo Electric Co., Ltd. (Japan)
MD5 • Alternating current MAMMOS with larger readout power margin, M. Sekine, M. Tani, K. Inoue, S. Imai, H. Awano, N. Ota, Hitachi Maxell, Ltd. (Japan)
MD6 • Simulation of magnetic domain expansion phenomena of MAMMOS media with a blue laser and a high NA objective lens, S. Imai, Hitachi Maxell, Ltd. (Japan)
MD7 • Ultrafast thermal response and domain reversal of MAMMOS readout layer, H. Awano, M. Sekine, N. Ota, Hitachi Maxell, Ltd. (Japan); J. Hohfeld, T. Rasing, Katholieke Univ. Nijmegen (Netherlands); Y. Nakatani, Univ. of Electro-Communications (Japan)
MD8 • 20-Gbit/inch2 DWDD medium with 405-nm and 0.60-NA optics, T. Sakamoto, G. Fujita, Sony Corp. (Japan)
TuA*Coding and Channels
TuA1 • Advanced coding and signal processing for multilevel write-once and rewritable optical storage, S. W. McLaughlin, Georgia Institute of Technology (USA)
TuA2 • Performance evaluation of asymmetrical run-length-limited code, T. Kato, Y. Katayama, H. Yamakawa, T. Nishiya, T. Maeda, Hitachi Ltd. (Japan)
TuA3 • New technique for the prediction and correction of nonlinearities in simulated optical readout waveforms, P. W. Nutter, Univ. of Manchester (UK); C. D. Wright, Univ. of Exeter (UK)
TuA4 • Selective ISI cancellation (SISIC) for high-density optical recording using d=1 RLL channel codes, H. J. Verboom, Plasmon LMS (USA)
TuA5 • Piecewise approach of maximum likelihood receiver, K. H. Kim, J. S. Shim, H. S. Park, K. H. Jung, D. H. Shin, Samsung Electronics Co., Ltd. (Korea)
TuA6 • Turbo coded RLL constrained optical recording channels with DVD minimum marks size, S. W. McLaughlin, L. L. McPheters, Georgia Institute of Technology (USA)
TuA7 • Multidimensional modulation codes and error correction for page-oriented optical data storage, D. E. Pansatiankul, A. A. Sawchuk, Univ. of Southern California (USA)
TuB*Servo and Heads
TuB1 • Substrate thickness error and radial tilt detection using 5-beam optical head, R. Katayama, Y. Komatsu, Y. Yamanaka, NEC Corp. (Japan)
TuB2 • Plasma etched lens (PEL) for DVR-blue, A. Kouchiyama, K. Kishima, T. Nakao, K. Yamamoto, G. Hashimoto, A. Iida, I. Ichimura, K. Osato, Sony Corp. (Japan)
TuB3 • New liquid crystal panel for spherical aberration compensation, M. Iwasaki, M. Ogasawara, S. Ohtaki, Pioneer Corp. (Japan)
TuB4 • Measuring spherical aberration for the dynamic compensation of substrate-thickness error, T. Shimano, T. Ariyoshi, M. Umeda, T. Maeda, H. Sukeda, Hitachi Ltd. (Japan); T. Nomura, K. Murata, Asahi Glass Co., Ltd. (Japan)
TuB5 • Advances in liquid crystal tilt compensation, S. Stallinga, Philips Research Labs. (Netherlands); J. J. Vrehen, Philips Optical Storage (Netherlands)
TuB6 • Multitrack DVD-ROM, J. Dovic, Philips Research Labs. (Netherlands); J. Wals, Philips Optical Storage (Netherlands); T. Ikkink, M. Rieck, T. Tukker, Philips Research Labs. (Netherlands); J. van den Eerenbeemd, A. L. van Voorst, Philips Optical Storage (Netherlands); R. M. Rijs, Philips Research Labs. (Netherlands)
TuB7 • Non-periodic phase structures in optical disk systems, J. de Vries, Philips Optical Storage (Netherlands); B. H. W. Hendriks, Philips Research Labs. (Netherlands)
TuC*Testing and Evaluation
TuC1 • Crystallization of GeSbTe and AgInSbTe under dynamic conditions, K. Daly-Flynn, D. A. Strand, Energy Conversion Devices, Inc. (USA)
TuC2 • Temperature-dependence of optical constants in phase-change media, P. K. Khulbe, Optical Sciences Ctr./Univ. of Arizona (USA); T. Hurst, Hewlett-Packard Labs. and Optical Sciences Ctr./Univ. of Arizona (USA); M. Mansuripur, Optical Sciences Ctr./Univ. of Arizona (USA)
TuC3 • Measurement of thermal coefficients of erasable phase-change optical recording media, C. Peng, M. Mansuripur, Optical Sciences Ctr./Univ. of Arizona (USA)
TuC4 • Scattering measurements on optical disks, X. Xun, C. Peng, M. Mansuripur, Optical Sciences Ctr./Univ. of Arizona (USA)
TuC5 • Experimenatal test bed for hybrid recording, T. Rausch, P. Herget, J. Zhu, J. A. Bain, D. D. Stancil, T. E. Schlesinger, Carnegie Mellon Univ. (USA)
TuD*High-Density Storage
TuD1 • Super-resolutional readout of read-only memory disc and phase-change disc induced by highreadout power irradiation, T. Kikukawa, National Institute for Advanced Interdisciplinary Research (Japan); H. Utsunomiya, TDK Corp. (Japan)
TuD2 • High-density blue-laser rewritable optical disc system adopting 0.3-mm thick plastic substrate, J. Y. Kim, S. W. Suh, K. C. Park, LG Electronics Inc. (Korea)
TuD3 • In-groove phase-change optical recording for a capacity of over 24 GB, I. Ichimura, S. Masuhara, J. Nakano, Y. Kasami, K. Yasuda, K. Osato, Sony Corp. (Japan)
TuD4 • Groove-only recording under DVR conditions, M. Kuijper, Philips Research Labs. and Philips Optical Storage (Netherlands); I. P. Ubbens, L. Spruijt, Philips Optical Disc Technology Ctr. (Netherlands); J. Matthijs ter Meulen, Philips Research Labs. and Philips Optical Disc Technology Ctr. (Netherlands); K. Schep, Philips Research Labs. (Netherlands)
TuD5 • High-density recording technology using blue-laser diode, M. Nakano, H. Honma, M. Kubota, S. Ohkubo, T. Ide, S. Sugaya, R. Katayama, T. Iwanaga, NEC Corp. (Japan)
WA*Mastering and Replication
WA1 • Liquid immersion for deep-UV optical disc mastering, H. Van Santen, W. R. Koppers, Philips Research Labs. (Netherlands)
WA2 • 25-Gbyte read-only memory disk fabrication process, T. Iida, M. Katsumura, T. Imai, F. Yokogawa, Pioneer Corp. (Japan)
WA3 • 1-beam mastering of groove recording disc with LPP address, T. Kondo, E. Nakagawa, T. Ohgo, M. Mochizuki, A. Hosoda, H. Nakamura, K. Ohshima, F. Ito, M. M. Itonaga, Victor Co. of Japan, Ltd. (Japan)
WA4 • First trial of the groove recording disk for high-NA objective lens using electron beam, H. Nishiwaki, Y. Tomita, M. Katsumura, K. Yamamoto, Pioneer Corp. (Japan); H. Inoue, TDK Corp. (Japan)
WA5 • Plastic substrate with high performance by utilizing a new polycarbonate with addition of antiplasticizer, M. Ueda, Mitsubishi Engineering-Plastics Corp. (Japan)
WA6 • Large capacity ROM disk by conventional injection molding process, T. Imai, M. Katsumura, T. Iida, F. Yokogawa, Pioneer Corp. (Japan)
WB*Near Field
WB1 • Optical flying head for a near-field recording system, T. Mizuno, T. Hitosugi, N. Kojima, K. Watanabe, Sony Corp. (Japan)
WB2 • Practical fabrication of an optical flying head for a near-field recording system, N. Kojima, T. Mizuno, T. Hitosugi, A. Kawashima, K. Watanabe, Sony Corp. (Japan)
WB3 • Optical fields of a sub-wavelength metal aperture in a VSAL, A. Itagi, F. Chen, D. D. Stancil, T. E. Schlesinger, Carnegie Mellon Univ. (USA)
WB4 • Embedded nano-optic media for near-field high-density optical data storage: modeling, fabrication, and performance, J. M. Guerra, D. Vezenov, L. Thulin, P. F. Sullivan, K. P. Nelson, Calimetrics, Inc.; E. N. Glytsis, T. K. Gaylord, Georgia Institute of Technology (USA)
WB5 • Demonstration of 45-Gbit/in.2 in near-field phase-change recording, K. Kishima, I. Ichimura, K. Yamamoto, K. Osato, Y. Kuroda, A. Iida, S. Masuhara, K. Saito, Sony Corp. (Japan)
WB7 • Near-field readout system for a high-density optical ROM disc, T. Ishimoto, K. Saito, T. Kondo, A. Nakaoki, M. Yamamoto, Sony Corp. (Japan)
저는 차세대 광기록계 기술이 될 High density optical storage와 Near field, 그 밖의 기술들을 중점적으로 세계 선진 기술과 한국 기술간의 격차 및 가능성에 대해서 주로 보고 하려고 합니다.
4월 22~25 사이에 미국의 NewMexico SantaFe에서 열리는 광기록 기술에 관한 학회에 참석합니다. 본 학회는 광기록 기술과 관련해서 미국, 일본, 유럽, 대만 및 한국의 학교와 업체들이 모여서 여는 학회로 일반 학회에 비해 현재 및 미래 기술의 진행 상황에 대한 보고가 많이 이루어집니다. 특히 이 학회의 주요 논의 내용은 매년 SPIE Proceeding으로 출판되어집니다. 주요 내용은 다음과 같습니다.
Foreword
The 2001 Optical Data Storage conference will be held during the week starting 22 April 2001. This will be the seventeenth meeting of the of the Optical Data Storage conference (ODS) and will, as usual, provide an excellent opportunity to exchange and share the latest developments and results in the dynamic field of data storage. ODS 2001 will be held in Santa Fe, New Mexico, where these exciting scientific issues will be discussed in a beautiful artistic setting. In addition to the technical sessions, a series of short courses will be presented on Sunday 22 April 2001.
Scope
This conference is a key forum for exchanging information regarding the status, future direction, and new developments in optical recording. A broad range of topics will be covered including advances in optical systems, materials, disc mastering, components and novel optical storage applications. Papers will be presented covering main stream fields such as next generation high density DVD ROM storage and phase change recording, magneto-optic and near-field recording. Contributions are encouraged from alternative storage areas, such as scanning probe, holographic, and hybrid technologies. Contributions are also encouraged from related areas such as novel coding techniques, copy protection, and industry standards
Keynote Address
DNA, Human Memory, and the Storage Technology of the 21st Century, M. Mansuripur, Optical Sciences Ctr./Univ. of Arizona (USA)
MA • Applications and Emerging Technologies
Glenn T. Sincerbox, Optical Sciences Ctr./Univ. of Arizona (USA); Ryuichi Katayama, NEC Corp. (Japan)
MA1 • DataPlay's mobile recording technology, B. W. Bell, Jr., DataPlay, Inc.
MA2 • Secure content management enabled by Kodak's CD-ROM technology, B. Ha, Eastman Kodak Co. (USA)
MA3 • 300-MB 8-cm recordable optical discs having compatibility with current CD writers and players, S. Morita, H. Konishi, M. Nishiyama, M. Ohmikawa, Nikon Corp. (Japan)
MA4 • Technical considerations for optical disks in cellular mobile terminals, J. S. Mäkelä, M. A. Juhola, Nokia Mobile Phones (Finland); J. K. Aikio, P. Karioja, VTT Electronics (Finland)
MA5 • UV embossing process for multilayered waveguide holographic memory media, K. Ishihara, H. Kubo, R. Yoshiyama, K. Yamauchi, M. Kawashima, Y. Miwa, T. Kobayashi, Mitsubishi Chemical Corp. (Japan)
MA6 • Design aspects of waveguide hybrid advanced MEMS (WHAM), J. Kim, T. D. Milster, Optical Sciences Ctr./Univ. of Arizona (USA)
MB*Media I
MB1 • Phase change material for use in rewritable dual-layer optical disk, N. Yamada, R. Kojima, M. Uno, T. Akiyama, H. Kitaura, K. Narumi, K. Nishiuchi, Matsushita Electric Industrial Co., Ltd. (Japan)
MB2 • Advances in thermal modeling of dual-layer DVR-blue fast-growth media, E. R. Meinders, H. J. Borg, M. Lankhorst, J. Hellmig, A. V. Mijiritskii,
M. J. Dekker, Philips Research Labs. (Netherlands)
MB3 • 41.8-GB double-decker phase change disc, K. Kurokawa, T. Yamasaki, T. Yukumoto, T. Nakao, K. Mano, K. Yasuda, S. Takagawa, M. Nakamura, Sony Corp. (Japan)
MB4 • 50-Gbyte read-only dual-layer disk for the high NA objective lens and blue-violet lasers, T. Higuchi, T. Imai, N. Shida, H. Nishiwaki, M. Katsumura, Pioneer Corp. (Japan)
MB5 • Basic study of write-once media for blue-violet laser, S. Ohkubo, T. Ide, M. Okada, NEC Corp. (Japan
MC*Media II
MC1 • Material characterization and application of eutectic SbTe-based phase-change optical recording media, M. Horie, T. Ohno, N. Nobukuni, K. Kiyono, T. Hashizume, M. Mizuno, Mitsubishi Chemical Corp (Japan)
MC2 • Phase-change disc for high-data-rate recording, H. Inoue, H. Hirata, T. Komaki, T. Kato, H. Shingai, N. Hayashida, H. Utsunomiya, TDK Corp. (Japan)
MC3 • Superlattice-like phase change optical disc, W. Qiang, T. Chong, National Univ. of Singapore
MC4 • Simulations of recrystallization in phase-change recording material, Y. Nishi, H. Kando, M. Terao, Hitachi Ltd. (Japan)
MC5 • Multilayer write-once medium having Te-O-Pd films utilizing blue-violet laser, H. Kitaura, K. Narumi, K. Nishiuchi, N. Yamada, Matsushita Electric Industrial Co., Ltd. (Japan)
MD*Media III
MD1 • High-density first surface magneto-optical recording using blue laser high-numerical aperture objective and flying slider, F. Zijp, Y. V. Martynov, F. C. Penning, B. van Rompaey, R. J. M. Vullers, H. W. van Kesteren, C. A. Verschuren, M. A. H. van der Aa, Philips Research Labs. (Netherlands); H. Awano, N. Ohta, Hitachi Maxell, Ltd. (Japan)
MD2 • High-density substrate incident magneto-optic recording using a solid immersion lens, D. C. Karns, D. D. Stancil, B. V. K. Vijaya Kumar, T. E. Schlesinger, Carnegie Mellon Univ. (USA)
MD3 • Recording power tolerance of magneto-optical media on RIE-formed substrate using NA 0.85 and 407-nm optics, T. Miki, T. Sakamoto, A. Nakaoki, M. Yamamoto, Sony Corp. (Japan)
MD4 • Zero field MAMMOS with double density of AS-MO, M. Tani, K. Inoue, M. Sekine, S. Imai, H. Awano, N. Ota, Hitachi Maxell, Ltd. (Japan); K. Mitani, N. Takagi, H. Terasaki, Sanyo Electric Co., Ltd. (Japan)
MD5 • Alternating current MAMMOS with larger readout power margin, M. Sekine, M. Tani, K. Inoue, S. Imai, H. Awano, N. Ota, Hitachi Maxell, Ltd. (Japan)
MD6 • Simulation of magnetic domain expansion phenomena of MAMMOS media with a blue laser and a high NA objective lens, S. Imai, Hitachi Maxell, Ltd. (Japan)
MD7 • Ultrafast thermal response and domain reversal of MAMMOS readout layer, H. Awano, M. Sekine, N. Ota, Hitachi Maxell, Ltd. (Japan); J. Hohfeld, T. Rasing, Katholieke Univ. Nijmegen (Netherlands); Y. Nakatani, Univ. of Electro-Communications (Japan)
MD8 • 20-Gbit/inch2 DWDD medium with 405-nm and 0.60-NA optics, T. Sakamoto, G. Fujita, Sony Corp. (Japan)
TuA*Coding and Channels
TuA1 • Advanced coding and signal processing for multilevel write-once and rewritable optical storage, S. W. McLaughlin, Georgia Institute of Technology (USA)
TuA2 • Performance evaluation of asymmetrical run-length-limited code, T. Kato, Y. Katayama, H. Yamakawa, T. Nishiya, T. Maeda, Hitachi Ltd. (Japan)
TuA3 • New technique for the prediction and correction of nonlinearities in simulated optical readout waveforms, P. W. Nutter, Univ. of Manchester (UK); C. D. Wright, Univ. of Exeter (UK)
TuA4 • Selective ISI cancellation (SISIC) for high-density optical recording using d=1 RLL channel codes, H. J. Verboom, Plasmon LMS (USA)
TuA5 • Piecewise approach of maximum likelihood receiver, K. H. Kim, J. S. Shim, H. S. Park, K. H. Jung, D. H. Shin, Samsung Electronics Co., Ltd. (Korea)
TuA6 • Turbo coded RLL constrained optical recording channels with DVD minimum marks size, S. W. McLaughlin, L. L. McPheters, Georgia Institute of Technology (USA)
TuA7 • Multidimensional modulation codes and error correction for page-oriented optical data storage, D. E. Pansatiankul, A. A. Sawchuk, Univ. of Southern California (USA)
TuB*Servo and Heads
TuB1 • Substrate thickness error and radial tilt detection using 5-beam optical head, R. Katayama, Y. Komatsu, Y. Yamanaka, NEC Corp. (Japan)
TuB2 • Plasma etched lens (PEL) for DVR-blue, A. Kouchiyama, K. Kishima, T. Nakao, K. Yamamoto, G. Hashimoto, A. Iida, I. Ichimura, K. Osato, Sony Corp. (Japan)
TuB3 • New liquid crystal panel for spherical aberration compensation, M. Iwasaki, M. Ogasawara, S. Ohtaki, Pioneer Corp. (Japan)
TuB4 • Measuring spherical aberration for the dynamic compensation of substrate-thickness error, T. Shimano, T. Ariyoshi, M. Umeda, T. Maeda, H. Sukeda, Hitachi Ltd. (Japan); T. Nomura, K. Murata, Asahi Glass Co., Ltd. (Japan)
TuB5 • Advances in liquid crystal tilt compensation, S. Stallinga, Philips Research Labs. (Netherlands); J. J. Vrehen, Philips Optical Storage (Netherlands)
TuB6 • Multitrack DVD-ROM, J. Dovic, Philips Research Labs. (Netherlands); J. Wals, Philips Optical Storage (Netherlands); T. Ikkink, M. Rieck, T. Tukker, Philips Research Labs. (Netherlands); J. van den Eerenbeemd, A. L. van Voorst, Philips Optical Storage (Netherlands); R. M. Rijs, Philips Research Labs. (Netherlands)
TuB7 • Non-periodic phase structures in optical disk systems, J. de Vries, Philips Optical Storage (Netherlands); B. H. W. Hendriks, Philips Research Labs. (Netherlands)
TuC*Testing and Evaluation
TuC1 • Crystallization of GeSbTe and AgInSbTe under dynamic conditions, K. Daly-Flynn, D. A. Strand, Energy Conversion Devices, Inc. (USA)
TuC2 • Temperature-dependence of optical constants in phase-change media, P. K. Khulbe, Optical Sciences Ctr./Univ. of Arizona (USA); T. Hurst, Hewlett-Packard Labs. and Optical Sciences Ctr./Univ. of Arizona (USA); M. Mansuripur, Optical Sciences Ctr./Univ. of Arizona (USA)
TuC3 • Measurement of thermal coefficients of erasable phase-change optical recording media, C. Peng, M. Mansuripur, Optical Sciences Ctr./Univ. of Arizona (USA)
TuC4 • Scattering measurements on optical disks, X. Xun, C. Peng, M. Mansuripur, Optical Sciences Ctr./Univ. of Arizona (USA)
TuC5 • Experimenatal test bed for hybrid recording, T. Rausch, P. Herget, J. Zhu, J. A. Bain, D. D. Stancil, T. E. Schlesinger, Carnegie Mellon Univ. (USA)
TuD*High-Density Storage
TuD1 • Super-resolutional readout of read-only memory disc and phase-change disc induced by highreadout power irradiation, T. Kikukawa, National Institute for Advanced Interdisciplinary Research (Japan); H. Utsunomiya, TDK Corp. (Japan)
TuD2 • High-density blue-laser rewritable optical disc system adopting 0.3-mm thick plastic substrate, J. Y. Kim, S. W. Suh, K. C. Park, LG Electronics Inc. (Korea)
TuD3 • In-groove phase-change optical recording for a capacity of over 24 GB, I. Ichimura, S. Masuhara, J. Nakano, Y. Kasami, K. Yasuda, K. Osato, Sony Corp. (Japan)
TuD4 • Groove-only recording under DVR conditions, M. Kuijper, Philips Research Labs. and Philips Optical Storage (Netherlands); I. P. Ubbens, L. Spruijt, Philips Optical Disc Technology Ctr. (Netherlands); J. Matthijs ter Meulen, Philips Research Labs. and Philips Optical Disc Technology Ctr. (Netherlands); K. Schep, Philips Research Labs. (Netherlands)
TuD5 • High-density recording technology using blue-laser diode, M. Nakano, H. Honma, M. Kubota, S. Ohkubo, T. Ide, S. Sugaya, R. Katayama, T. Iwanaga, NEC Corp. (Japan)
WA*Mastering and Replication
WA1 • Liquid immersion for deep-UV optical disc mastering, H. Van Santen, W. R. Koppers, Philips Research Labs. (Netherlands)
WA2 • 25-Gbyte read-only memory disk fabrication process, T. Iida, M. Katsumura, T. Imai, F. Yokogawa, Pioneer Corp. (Japan)
WA3 • 1-beam mastering of groove recording disc with LPP address, T. Kondo, E. Nakagawa, T. Ohgo, M. Mochizuki, A. Hosoda, H. Nakamura, K. Ohshima, F. Ito, M. M. Itonaga, Victor Co. of Japan, Ltd. (Japan)
WA4 • First trial of the groove recording disk for high-NA objective lens using electron beam, H. Nishiwaki, Y. Tomita, M. Katsumura, K. Yamamoto, Pioneer Corp. (Japan); H. Inoue, TDK Corp. (Japan)
WA5 • Plastic substrate with high performance by utilizing a new polycarbonate with addition of antiplasticizer, M. Ueda, Mitsubishi Engineering-Plastics Corp. (Japan)
WA6 • Large capacity ROM disk by conventional injection molding process, T. Imai, M. Katsumura, T. Iida, F. Yokogawa, Pioneer Corp. (Japan)
WB*Near Field
WB1 • Optical flying head for a near-field recording system, T. Mizuno, T. Hitosugi, N. Kojima, K. Watanabe, Sony Corp. (Japan)
WB2 • Practical fabrication of an optical flying head for a near-field recording system, N. Kojima, T. Mizuno, T. Hitosugi, A. Kawashima, K. Watanabe, Sony Corp. (Japan)
WB3 • Optical fields of a sub-wavelength metal aperture in a VSAL, A. Itagi, F. Chen, D. D. Stancil, T. E. Schlesinger, Carnegie Mellon Univ. (USA)
WB4 • Embedded nano-optic media for near-field high-density optical data storage: modeling, fabrication, and performance, J. M. Guerra, D. Vezenov, L. Thulin, P. F. Sullivan, K. P. Nelson, Calimetrics, Inc.; E. N. Glytsis, T. K. Gaylord, Georgia Institute of Technology (USA)
WB5 • Demonstration of 45-Gbit/in.2 in near-field phase-change recording, K. Kishima, I. Ichimura, K. Yamamoto, K. Osato, Y. Kuroda, A. Iida, S. Masuhara, K. Saito, Sony Corp. (Japan)
WB7 • Near-field readout system for a high-density optical ROM disc, T. Ishimoto, K. Saito, T. Kondo, A. Nakaoki, M. Yamamoto, Sony Corp. (Japan)
저는 차세대 광기록계 기술이 될 High density optical storage와 Near field, 그 밖의 기술들을 중점적으로 세계 선진 기술과 한국 기술간의 격차 및 가능성에 대해서 주로 보고 하려고 합니다.