Symposium |
Superconductor Technology: Advancement from “Usable” to “Indispensable” Technology |
March 30 13:00〜17:45 |
30p-A- / 0 |
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1 |
Superconductor Technology: Advancement from “Usable” to “Indispensable” Technology |
Nagoya Univ. 1 *Fujimaki Akira 1 |
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2 |
How any amount of superconductivity is in use now? −Metallic system superconductors pulling Higgs particle investigations or thermonuclear reactor experiments− |
International Superconductivity Technology Center Yasuzo Tanaka 1 |
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3 |
Present Status and Future Prospects of Bi2223 Wire Business -Power Transmission, Motor and Magnet Application- |
Sumitomo Electric 1 Kazuhiko Hayashi 1 |
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4 |
Development of Electric Applications Using Y(RE)BCO Coated Conductors |
ISTEC-SRL *Fujiwara Noboru 1 |
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Break 14:40〜15:00 |
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5 |
Possibilities of new superconductors, MgB2 and pnictides |
National Inst. for Materials Science Kumakura Hiroaki 1 |
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6 |
Superconducting Technology in Future |
Tohoku Univ. 1 Hamajima Takataro 1 |
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7 |
Potential market of HTSC is starting to clear up |
Nikkei 1 *Kurokawa Takashi 1 |
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Break 16:15〜16:35 |
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8 |
Panel Discussion (70 min.) |
Kyushu Inst. of Tech. Kaname Matsumoto (Chair) |
Polarization-reversed optical devices opening a new frontier in uncertain times |
March 30 13:30〜18:05 |
30p-B- / 0 |
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1 |
Polarization-reversed optical devices changing opaque era - Introductory talk - |
Waseda Univ. Nakajima Hirochika |
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2 |
Field poled optical devices for giant micro photonics |
Institute for Molecular Science Taira Takunori 1, Hideki Ishizuki 1 |
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3 |
Accurate measurements of nonlinear-optical coefficients of materials for periodically poled devices |
Chuo Univ. 1, The Univ. of Tokyo 2 *Shoji Ichiro 1, Kondo Takashi 2 |
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4 |
In-plain control of GaN polarity grown by MOCVD for conversion of wavelength using qusai phase matching |
NIMS 1, Osaka Univ. 2, Shizuoka Univ. 3 *M. Sumiya 1, H. Matsumura 2, S. Fuke 3, J. Shi 1, and S. Kurimura 1 |
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5 |
Fabrication of lattice polarity inverted GaN haterostructures by MBE |
Dept. of Adv. Mater. Sci., The Univ. of Tokyo 1, Dept. of Mater. Eng., The Univ. of Tokyo 2, JST PRESTO 3 *Ryuji Katayama 1,3, Yujiro Fukuhara 1, Takashi Kondo 2 and Kentaro Onabe 1 |
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6 |
Room-temperature bonding of semiconductor plates for quasi-phase-matched frequency conversion |
Chuo Univ. 1 *Shoji Ichiro 1, Kawaji Munenori 1, Imura Ken 1, Yaguchi Tomohiko 1 |
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Break 15:50〜16:05 |
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7 |
Periodically Poled Wavelength-Conversion Devices: Outlook from Quantum Optics |
Tohoku Univ. 1, PRESTO-JST 2, Nagoya Univ. 3 *Keiichi Edamatsu 1, Ryosuke Shimizu 2, Hirofumii Suzuki 1, Shigehiro Nagano 1, Atsushi Syouji 1, and Koji Suizu 3 |
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8 |
Expectations for QPM devices from coherent THz-wave sources |
Nagoya Univ. 1, RIKEN 2 Koji Suizu 1, Takayuki Shibuya 1,2,Toshihiro Tutui 1,Kaoru Koketsu 1,Takuya Akiba 1,Kodo Kawase 1,2 |
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9 |
Application of a periodically poled optical device for trace gas detection |
Tokai Univ. *Shigeru Yamaguchi, Takashi Yasuda |
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10 |
Ultra precise optical frequency measurement using periodically poled devises |
NMIJ, AIST Inaba Hajime 1, Nakajima Yoshiaki 1,2, Hong Feng-Lei 1, Minoshima Kaoru 1, Onae Atsushi 1 |
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11 |
Earth-friendly Low Electric Consumption Periodically-poled Green Laser |
Panasonic Corp. *Mizushima Tetsuro 1, Nakayama Kenji 1, Horikawa Nobuyuki 1, Kusukame Koichi 1, Suguta Tomoya 1, Furuya Hiroyuki 1 |
Function design of micro- and nano-particles |
March 30 13:00〜17:05 |
30p-C- / 0 |
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1 |
Introductory Talk: Role of Nano-sized Particles for Molecular Electronics and Bioelectronics |
RIEC Tohoku Univ. *Kaoru Tamada 1 |
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2 |
Design of Nano-Biodevices Using Polymers Having Unique Architecture |
Osaka Prefecture Univ. Harada Atsushi |
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3 |
Formation of Self-Organized Hybrid Nanostructures by Introduction of Thermotropic Liquid Crystallinty into Size and Shape-Controlled Nanoparticles |
IMRAM, Tohoku Univ. Kiyoshi Kanie |
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4 |
Enhancement of Sensor Capability by the Self-assembly of Nano-Particles |
University of Kitakyushu Korposh Sergiy1, Suguru Kodaira1, Seung-Woo Lee1 |
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5 |
Fabrication of Polymer Nanoparticles with Unique Inner Structures by Self-Organization |
Tohoku Univ. 1, PRESTO-JST 2 *Hiroshi Yabu 1,2 |
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Break 15:10〜15:30 |
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6 |
Nano-Patterned Media for High Density Optical Data Storage |
Shizuoka Univ. *Kawata Yoshimasa, Egami Chikara |
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7 |
Nanoparticles Assembly and Engineering Their Structures for NIR-light Responsible Plasmonic Sensing Applications |
Osaka Univ. Nobuyuki Zettsu 1 |
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8 |
Preparation and application of micro- and nano-particles by engineering inspired from nature |
Keio Univ. Dept. of Appl. Chem. *Fujimoto Keiji 1 |
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9 |
Closing Remark |
IMRAM, Tohoku Univ. Masaya Mitsuishi1 |
Modeling and simulation of semiconductor processes, devices, and integrated cirucuits |
March 30 11:00〜16:30 |
30a-D- / 0 |
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1 |
Introductory Talk:Symposium on Semiconductor Modeling and Simulation |
Osaka Univ., Cybermedia Center Shinji Odanaka |
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2 |
Layout dependent thermal simulation on Rapid Thermal Annealing |
NEC Electronics 1 *Shinzawa Tsutomu, Maruyama Shinya, Fukase Tadashi, Akiyama Yutaka |
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3 |
Accurate determination of the contribution of Si self-interstitials to diffusion in Si using isotope superlattices |
Keio Univ. 1, Selete 2 Masashi Uematsu 1, Yasuo Shimizu 1, Yoko Kawamura 1, Miki Naganawa 1, Yuri Sakuma 1, Masakazu Kashiwabara 1, Kohei Itoh 1, Hiroyuki Ito 2, Hideaki Ishikawa 2, Mitsutoshi Nakamura 2, Yuzuru Ohji 2 |
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Lunch 12:00〜13:45 |
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30p-D- / 0 |
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1 |
Numerical study of FG-memory cell with a local trap |
Adv. LSI Tech. Lab., Toshiba Corp. Hiroshi Watanabe |
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2 |
Analysis of Saturation Vth Fluctuation and its Impact on SRAM Cell Characteristics |
NEC Electronics 1, NEC 2 Toshiharu Nagumo 1, Makoto Miyamura 2, Kiyoshi Takeuchi 1, Koichi Takeda 1, Masami Hane 1 |
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3 |
3D pattern dependent Vt modulation simulation of Floating Gate Flash Memory |
Renesas Technology Corp. *Ishikawa Kiyoshi 1,Sonoda Kenichiro 1,Kunikiyo Tatsuya 1,Takashino Hiroyuki 1,Tsuchiya Osamu 1,Inoue Yasuo 1 |
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Break 15:00〜15:15 |
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4 |
Ballistic transport modeling for 2-dimensional electron gas in the MOS inversion layer |
AdvanceSoft Co. 1, Meiji Univ. 2 *Yamaguchi Ken 1, Tomizawa Kazutaka 2 |
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5 |
Effects of interface roughness scattering in multi-gate MOSFETs |
Osaka Univ. 1 *Nobuya Mori 1, Hideki Minari 1 |
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6 |
Quantum Transport Simulation of the Impurity Effects in Nanoscale Devices |
Osaka Univ. 1, Hiroshima Univ. 2 Mil'nikov Gennady 1, *Mori Nobuya 1, Kamakura Yoshinari 1, Ezaki Tatsuya 2 |
Possibility of Energy Device Development Basedon Photosynthesis |
March 30 13:00〜16:50 |
30p-G- / 0 |
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1 |
Introductory talk on energy device development based on photosynthesis |
Dept. of Human Development, Tokai University Haru-Hisa Uchida 1 |
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2 |
Water oxidation and oxygen evolution from manganese complexes. |
Ibaraki Univ. 1. *Shimazaki Yuichi 1 |
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3 |
Basis for Solar Energy Conversion Learned from Photosynthesis |
RIKEN 1 *Takada Toshikazu 1 |
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4 |
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Break 14:40〜14:50 |
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5 |
Artificial Photoelectrolysis (Hydrogen Generation by Water Splitting) by Semiconductors and Photocatalysts |
CIR Tohoku Univ. Fujii Katsushi 1 |
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6 |
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7 |
Protonic Functionalities of Correlated Electrons Enabling Sustainable Society |
CMRG, RIKEN-AIS 1, WPI-AIMR, Tohoku Univ. 2, CREST-JST 3 Masashi Kawasaki 1, 2, 3 |
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8 |
Possibilities of solar energy devices - aspects from material resources |
NIMS Nishimura Chikashi |
Novel system, sub-system, device technologies for photonic ICT |
March 30 13:00〜16:30 |
30p-H- / 0 |
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1 |
Photonics Networking; its social implications and recent technologies |
Fujitsu Laboratories Ltd. Kuwahara Hideo |
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2 |
Opto-electronic technologies for high-speed asynchronous optical packet processing. |
NTT Photonics Labs *Takahashi Ryo 1, Nakahara TaTsushi 1, Urata Ryohei 1, Takenouchi Hirokazu 1 |
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3 |
Optical Signal Processing for Dynamic Optical Networks |
National Inst. of Advanced Industrial Science and Technology *Namiki Shu1, Ishikawa Hiroshi1 |
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Break 14:45〜15:00 |
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4 |
Photonic Signal Processing Using a Variable Bandwidth Spectrum-shaper |
Japan Women's Univ. 1, NICT 2 *Kodate Kashiko 1, Komai Yuki 1, Wada Naoya 2 |
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5 |
Advanced electro-optic modulators utilizing polarization reversal structures |
Osaka Univ. 1 Hiroshi Murata 1, Yasuyuki Okamura 1 |
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6 |
Semiconductor Integrated Optical Device Technologies for Photonic Networking |
RCAST, Univ. of Tokyo *Nakano Yoshiaki 1, Tanemura Takuo 1 |
Advanced Plasma-Biomedical Technologies- Processes, Materials and Devices - |
March 30 13:30〜17:05 |
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13:15 - 13:30 Awarding Ceremony |
30p-L- / 0 |
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1 |
Introductory Talk: Medical- and Bio-Technology for Next Generation Developed with Plasma Science and Technology |
Shizuoka Univ. 1 *Masaaki Nagatsu 1 |
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2 |
Biocompatibility Improvement of Life-Body Implantation Type Bio Sensor Using Plasma-Activation Method |
Dept. of Biomed. Eng.1, Nanocarbon Bio Device Research Center2, Musashi Inst. of Technol. *Hirata Takamichi 1,2, Shimatani Yuichi 1, Taguchi Akira 1,2 |
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3 |
Plasma Processing of Biocompatible Diamond-like Carbon |
Toyo Advanced Technologies 1 *Tatsuyuki Nakatani 1, Yuki Nitta 1, Keishi Okamoto 1 |
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4 |
Medical application of biocompatible carbon films:“From a medical doctor’s point of view” |
Toho Univ. Sakura Medical Center 1, Keio Univ. 2 *Hasebe Terumitsu 1, Ueda Yoshito 2 |
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Break 15:10〜15:25 |
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5 |
Practical Application of plasma technology in Molecular Biology - Research and Development of New molecular Delivery System |
BBK Bio Corporation *Susumu Satoh 1 |
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6 |
Low Temperature Plasma Sterilization of Wrapped Medical Instruments |
Shizuoka Univ. 1, Hamamatsu Univ. Sch. of Med. 2 *Masaaki Nagatsu 1, Mrityunjai K. Singh 1, Akihisa Ogino 1, Yukio Koide 2 |
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7 |
On the correct experimental methods and their interpretations for plasma sterilization |
Chuou Univ.1 *Hideharu Shintani 1 |
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8 |
Summary |
ICC, Kyoto Univ. *Tatsuru Shirafuji 1 |
Frontier and theoretical basis of nanophotonic fabrications |
March 30 13:30〜17:20 |
30p-ZE- / 0 |
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1 |
Introductory talk |
Univ. Tokyo *Ohtsu Motoichi |
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2 |
Elementary processes in near-field photo-reaction and nanofabrication at the nanoscale |
Univ. Tokyo 1, CREST/JST 2 Kiyoshi Kobayashi 1,2 |
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3 |
Toward Numerical Verification of Nano-optics Simulations by Maxwell Equation |
Waseda Univ. 1 Shin'ichi Oishi |
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4 |
Femtosecond-laser-induced fine structure formation and its interaction processes |
Kyoto Univ. Miyazaki Kenzo |
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Break 15:05〜15:25 |
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5 |
Self-assembled nanostructure fabricated by compound semiconductor |
Natl. Inst. of Info. & Com. Tech. *Akahane Kouichi 1 |
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6 |
Novel light emission process and applications by nanophotonics |
Central Research Labs., Hamamatsu Photonics KK *Fujiwara Hiroyasu |
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7 |
Nanophotonic fabrication in sub-nanometer scale |
Univ. Tokyo 1 Takashi Yatsui 1 |
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8 |
Controlled immobilization of nanoparticles by self-assembly – DNA and other templates – |
School Sci., Univ. Tokyo *Yonezawa Tetsu1 |
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9 |
Concluding remarks |
The Univ. of Tokushima *Fukui Masuo 1 |
High Potentiality of Chalcopyrite-Based Materials |
March 30 13:00〜17:55 |
30p-ZF- / 0 |
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1 |
Introductory-High Potentiality of Chalcopyrite-Based Materials |
TUAT 1, JST 2 *Sato Katsuaki 1,2 |
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2 |
Chalcopyrite-type compounds - characteristics of chemical bonding and materials design - |
Ryukoku Univ.1 Tsuyoshi Maeda1, *Takahiro Wada1 |
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3 |
Crystal Growth and Optical Properties of Chalcopyrite Semiconductors |
Ehime Univ. 1 *Shirakata Sho 1 |
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4 |
MOVPE of Cu(Al,Ga,In)(S,Se)2 chalcopyrite semiconductors |
Tohoku Univ. Chichibu Shigefusa |
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5 |
Growth and characterization of high-quality CIGS films for solar cell applications |
AIST 1, Kagoshima Univ. 2, Tsukuba Univ. 3 Shigeru Niki1, Shogo Ishizuka1, Hironori Komaki1, Yukiko Kamikawa1, Hajime Shibata1, Koji Matsubara1, Hajime Shibata1, Akimasa Yamada1, Toshuiyuki Ohdaira1, Ryoichi Suzuki1, Norio Terada2, Takeaki Sakurai3, Katsuhiro Akimoto3 |
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Break 15:30〜15:45 |
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6 |
Chalcopyrite materials for tandem-type solar cells |
Tokyo Tech 1, Tokyo Tech PVREC 2 *Yamada Akira 1, 2 |
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7 |
Can CIGS thin film solar cells succeed in overcoming Si-based solar cells? |
Dept. Electrical Engineering and Electronics, Aoyama Gakuin Univ. Tokio Nakada 1 |
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8 |
Band gap engineering on CuInSe2-related-compound thin film solar cells |
Ritsumeikan Univ. Minemoto Takashi 1 |
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9 |
The development of CIGS-based Image Sensor |
Rohm Ltd. 1, AIST 2, *K. Miyazaki 1, O. Matsushima 1, H. Shiraga 1, T. Maekawa 1, M. Moriwake 1, S. Ishizuka 2, K. Sakurai 2,A. Yamada 2, and S. Niki 2. |
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10 |
Summary of the Symposium |
Tokyo Univ. of Science 1 *Sugiyama Mutsumi |
Recent progress in and future applications of wide-gap oxide semiconductors |
March 30 13:00〜17:25 |
30p-ZK- / 0 |
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1 |
Introductory: Research Trend of Wide Bandgap Semiconductors |
WPI-AIMR Tohoku Univ. 1, IMR Tohoku Univ.2, CREST-JST 3 Masashi Kawasaki 1, 2, 3 |
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2 |
Unique Features of Transparent Oxide Semiconductors |
FRC 1,MSL 2 Titech Hideo Hosono 1,2 |
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3 |
Band Engineering in ZnO-Based Semiconductors |
AIST, Research. Center for PV Shigeru Niki Hitoshi Tampo, Shibata Hajime, Keigou Maejima, Koji Matsubara |
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4 |
Polarity control and characteristics of ZnO single crystalline thin films |
Stanley Electric Co., Ltd. *Hiroyuki Kato, Michihiro Sano |
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5 |
Work function and surface and interfacial electronic structures of transparent oxide electrodes |
Center for Frontier Science, Chiba Univ.1, Graduate School of Integration Science, Chiba Univ.2 *Hisao Ishii1,2 |
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Break 15:05〜15:20 |
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6 |
New Electronic Functions Based on Doped TiO2 |
Univ. of Tokyo 1, KAST 2 *Hasegawa Tetsuya 1,2 |
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7 |
Deep Ultraviolet Optical Functions in Ga2O3 Semiconductors and Their Device Applications |
Kyoto Univ. Fujita Shizuo |
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8 |
High Rate Deposition of Transparent Conductive ZnO Films by Reactive Sputtering |
Aoyama Gakuin Univ.1 *Shigesato Yuzo |
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9 |
What is a key issue to improve properties of transparent conductive ZnO films ? |
Kochi Univ. Tech. Res. Inst. 1 *Yamamoto Tetsuya 1, Yamada Takahiro 1, Miyake Aki 1, Makino Hisao 1, Yamamoto Naoki 1 |
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10 |
Summary:What is problem of functional oxide materials to control their physical properties and practical applications? |
Univ. of Tokyo Tabata Hitoshi 1 |
Fundamentals and Cutting-Edge Applications of Ellipsometry and Polarimetry |
March 30 13:00〜16:45 |
30p-ZT- / 0 |
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1 |
Introductory Talk: Fundamentals and Cutting-Edge Applications of Ellipsometry and Polarimetry |
Hokkaido Univ. Oka Kazuhiko |
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2 |
Ellipsometry Classic |
Tokyo Polytechnic Univ. 1, Tohoku Univ. IMRAM 2 *Kawabata Shuichi 1, Tsuru Toshihide 2, Yamamoto Masaki 2 |
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3 |
Recent applications and developments of spectroscopic ellipsometry |
Gifu Univ. 1 *Fujiwara Hiroyuki 1 |
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4 |
Polarimetry of illumination for 193-nm photolithography used for high-end LSI manufacturing |
Toshiba Corp. Semiconductor Company 1 *Nomura Hiroshi 1, Furutono Yohko 1 |
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Break 15:00〜15:15 |
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▲ |
5 |
Principles and Applications of Polarization Sensitive Optical Coherence Tomography |
COG Univ. Tsukuba 1, COOG 2 *Yoshiaki Yasuno 1,2 |
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6 |
Three-dimensional Shape Measurement of Transparent Objects by Using Polarization Raytracing |
Hiroshima City Univ. 1, The Univ. of Tokyo 2 * Daisuke Miyazaki 1, Katsushi Ikeuchi 2 |
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7 |
Spectroscopic Mueller matrix polarimeter and its application |
Tokyo Univ.of Agri. and Techn. 1 *Yukitoshi Otani 1 |
Frontiers of thin-film transistors Comparison among silicon, oxide, and organic semiconductors |
March 30 13:00〜17:35 |
30p-TB- / 0 |
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1 |
Introductory Talk |
Univ.Hyogo Naoto Matsuo 1 |
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2 |
Crystallization of Si thin-film and TFT characteristics |
University of the Ryukyus NOGUCHI Takashi |
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3 |
Quasi-single Crystal Silicon TFT Technology |
Kyushu Univ. 1 Tanemasa Asano 1 |
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4 |
High-performance Silicon-TFT Technologies that Achieve Various Functions on Glass Substrate |
Hitachi, Ltd., Central Research Lab. 1, Hitachi Displays 2 Mutsuko Hatano 1, Makoto Ohkura 2 |
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5 |
Current Status of TAOS-TFTs |
FRC 1, MSL 2 Titech Hideo Hosono 1,2 |
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Break 15:10〜15:20 |
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6 |
Quantum Effects in Oxide Transistors |
WPI-AIMR, Tohoku Univ. 1, IMR Tohoku Univ. 2, CREST-JST 3 Masashi Kawasaki 1, 2, 3 |
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7 |
Characteristic of Organic Semiconductors and Their Device Applications |
Chiba Univ. Kazuhiro Kudo |
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8 |
Impact of Organic TFTs in Basic Materials Science |
Institute for Materials Research, Tohoku Univ *Yoshihiro Iwasa 1 |
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9 |
Flexible Display driven by Organic TFT |
Adv. Mat. Lab., Sony Corp. *Kazumasa Nomoto 1 |
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10 |
Concluding Talk -Next Generation Thin-Film Transistors for IT Societies- |
SANYO Electric Co., Ltd., Advanced Energy Research Center1 *Hiroki Hamada1 |
Compound-eye Optical Systems and Its Engineering Applications; organized by Research Group on Emerging Systems for Imaging |
March 30 13:30〜17:00 |
30p-TD- / 0 |
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1 |
Introductory Talk: Compound-eye Optical Systems and Its Engineering Applications |
Osaka Univ. 1 *Tanida Jun 1 |
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2 |
Development of a Compact Compound-Eye Camera |
Funai Electric Corp. 1 *Toyoda Takashi 1 |
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3 |
Integral imaging using GRIN lens array and its application |
NHK STRL Fumio Okano, Jun Arai |
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Break 15:00〜15:15 |
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4 |
Gonio imaging by compound-eye optics and its application to document examination |
Natl. Res. Inst. Police Sci. *Yoshinori Akao 1 |
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5 |
High-speed three-dimensional measurement based on sequential image acquisition using a compound-eye CMOS image sensor |
Osaka City Univ. *Daisuke Miyazaki 1 |
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6 |
Improved performances of compound-eye imaging systems by off-grid lens arrangement |
Osaka Univ. 1, Duke Univ. 2, FUNAI Electric Co., Ltd. 3 Keiichiro Kagawa 1, Ryoichi Horisaki 1,2, Yoshizumi Nakao 3, Takashi Toyoda 3, Yasuo Masaki 3, and Jun Tanida 1 |
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7 |
Closing Talk |
Tokyo Inst. Tech., Imag. Sci. & Eng. Lab Masahiro Yamaguchi |
Recent advances in buried interface science with X-rays and neutrons |
March 31 9:00〜17:10 |
31a-D- / 0 |
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1 |
Introductory Talk: Recent advances in buried interface science by X-rays and neutrons |
Nat'l Inst for Mater Sci *Sakurai Kenji1 |
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2 |
Prospective materials science in J-PARC |
JAEA 1 Arai Masatoshi 1 |
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3 |
Importance of buried interfaces in semiconductors and their measurements and analysis |
Nagoya Univ. 1, Nagoya Univ. VBL 2 *Yoshikazu Takeda 1, Masao Tabuchi 2 |
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Break 10:40〜11:00 |
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4 |
Analysis of Buried Interface of Soft Materials: Phase Separation and Dewetting of Polymer Blend Thin Films |
Kyoto Univ. 1 Kanaya Toshiji 1 |
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5 |
Science of Interfaces-properties and phenomena of metal (semiconductor)-organic molecule interface, solid-liquid interface, interfaces of nanostructures- |
Tohoku Univ. 1 Tsukada Masaru 1 |
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Lunch 12:20〜13:30 |
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31p-D- / 0 |
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1 |
Recent structural studies of surfaces and thin films using highly brilliant synchrotron x-ray diffraction |
JASRI/SPring-8 1 *Sakata Osami 1 |
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2 |
Current Status of Varied Interface Studies from Theoretical Physics and Computational Science |
University of Tsukuba Kenji Shiraishi 1 |
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Break 14:50〜15:10 |
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3 |
Theory and Computation of Sum Frequency Generation Spectroscopy toward Analysis of Buried Interfaces |
Tohoku Univ. 1 *Akihiro Morita 1 |
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4 |
Optical Observation of Electronic States at Buried Interfaces: Physics of Reflectance Difference Spectroscopy |
Chiba Univ. 1 *Nakayama Takashi 1 |
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5 |
Strain Field under the Si3N4/Si Interface Revealed by a Multiple X-ray Diffraction Phenomenon |
Univ. Tokyo 1, JASRI/SPring-8 2, NICHe 3, NIMS 4 *Yashiro Wataru 1, Yoda Yoshitaka 2, Teramoto Akinobu 3, Hattori Takeo 3, Miki Kazushi 4 |
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6 |
GISAXS analysis of interfaces of semiconducting nanodots |
Dept.Mater.Sci.Eng.,Kyoto Univ. 1, IMR,Tohoku Univ. 2, VBL,Nagoya Univ. 3, JASRI 4 *Hiroshi Okuda 1,Keiji Kuno 1, Masayuki Kato 1, Shojiro Ochiai 1, Noritaka Usami 2, Kazuo Nakajima 2, Masao Tabuchi 3, Osami Sakata 4, Kazuki Itoh 4 |
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7 |
Buried hetero-interface of H monolayer |
JAEA 1 Hidehito Asaoka 1 |
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8 |
Summary and Discussion |
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Metrology and Characterization in Semiconductor Technology (2) |
March 31 13:00〜17:30 |
31p-G- / 0 |
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1 |
Introduction to the Symposium on Metrology and Characterization in Semiconductor Technology |
AIST Toshihiko Kanayama |
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2 |
Impact of Metal Gate Stack on Channel Strain of MOSFETs |
Selete 1 Takeo Matsuki 1, Jiro Yugami 1, Kazuto Ikeda 1 |
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3 |
Layout-aware compact model of MOSFET characteristics variations induced by STI stress |
MIRAI-Selete 1, Tokyo Inst. of Technology 2 Yamada Kenta 1, Syo Toshiyuki 1, Masu Kazuya 2, Nakayama Noriaki 2, Sato Takashi 2, Amakawa Shuhei 2, Kunikiyo Tatsuya 1, Yoshimura Hisao 1, Ito masaru 1, Kumashiro Shigetaka 1 |
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4 |
Evaluation of strained-Si technology by UV-Raman spectroscopy |
Meiji University Atsushi Ogura |
|
5 |
Characterization of Narrow Width (-100 nm) Low-k Film Property between Cu Lines for ULSI |
Semiconductor Leading Edge Technologies, Inc. 1, Toray Research Center Inc. 2 *Shinichi Ogawa 1, Hideki Hashimoto 2 |
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Break 14:50〜15:10 |
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6 |
Characterization of materials for semiconductor devises using TEM/STEM and EELS |
NIMS *Kimoto Koji 1 |
▲ |
7 |
Advances in Helium Ion Microscope Imaging and Analysis |
ALIS Division, Carl Zeiss SMT 1. Semiconductor Leading Edge Technologies, Inc. 2 *Bill Thompson1 1, Shinichi Ogawa 2, Lewis Stern 1, Larry Scipioni 1, and John Notte 1 |
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8 |
Inspection and Metrology technologies for EUV mask |
MIRAI-Semiconductor Leading Edge Technologies, Inc. 1 *Terasawa Tsuneo 1, Yamane Takeshi 1, Iwasaki Teruo 1, Shigemura Hiroyuki 1, Suga Osamu 1 |
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9 |
Cross-sectional observation and reflectivity measurement of process-induced damage in EUV mask |
MIRAI-Selete *Nishiyama Yasushi 1, Amano Tsuyoshi 1, Shigemura Hiroyuki 1, Terasawa Tsuneo 1, Suga Osamu 1 |
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10 |
Absolute Calibration of EUV Mask Flatness Measurement Tool |
Semiconductor Leading Edge Technologies, Inc. Kazuya Ota, Takao Taguchi and Osamu Suga |
|
11 |
Summary: From stand point of technology roadmap |
Hitachi High-Technologies 1 Masahiko Ikeno 1 |
Surface plasmon radiation photonics |
March 31 13:00〜17:10 |
31p-H- / 0 |
|
1 |
Introductory Talk |
Tokyo Institute of Technology 1, RIKEN 2 *Kajikawa Kotaro 1, Okamoto Takayuki 2 |
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2 |
High-performance organic light emitting devices with plasmonic sructures |
RIKEN *Okamoto Takayuki |
|
3 |
High Efficient Light-Emitting Devices using Plasmonics |
Kyoto University, JST PRESTO Okamoto Koichi |
|
4 |
Enhanced Light Emission Mediated by Radiative Surface Plasmons in Metal-Insulator-Metal Structures |
Kobe Univ.1 Hayashi Shinji 1 |
|
|
Break 15:05〜15:25 |
|
|
5 |
Thermal radiation control and spoof-surface plasmon in periodic metal structures |
Osaka Univ. 1 Junichi Takahara |
|
6 |
Controlled Thermal Emission of Polarized Infrared Waves from Arrayed Plasmon Nanocavities |
NIMS 1, Nalux 2 *Miyazaki Hideki T. 1, Ikeda Katsumoto 2, Kasaya Takeshi 1, Yamamoto Kazuaki 2, Inoue Yasuaki 2, Fujimura Kayoko 2, Kanakugi Tomohiro 2, Okada Makoto 2, Hatade Kouei 2, Kitagawa Seiichiro 2 |
|
7 |
Laser Application Using Chiral Liquid Crystals with Spontaneous Nano-Periodic Structures |
Kyoto Univ. Takanishi Yoichi 1 |
New development of optical fiber sensors |
March 31 13:00〜17:30 |
31p-K- / 0 |
|
1 |
Introductory talk: New development of optical fiber sensors |
Nat'l Defense Academy Takahashi Nobuaki |
|
2 |
Otical Fiber Sensor Network using hetero-core techniques aiming at Ubiquitous Space Applications |
Fac.of Eng., Soka Univ.1, Core System Japan 2 *Kazuhiro Watanabe 1, Michiko Nishiyama 1, Hiroyuki Sasaki 2 |
|
3 |
Development and Application of Optical Fiber Current Sensors Technology |
Tokyo Electric Power Company 1 Kurosawa Kiyoshi 1 |
|
4 |
Fiber optic sensors for the exploration of oil and gas |
Schlumberger K.K. *Tsutomu Yamate |
|
5 |
Precision length metrology using optical combs based on mode-locked fiber lasers |
NMIJ AIST 1 Minoshima Kaoru 1 |
|
|
Break 15:15〜15:30 |
|
|
6 |
Recent Trend upon Fiber Optical Distributed Temperature and Strain Sensing |
Neubrex Co., Ltd. 1,Osaka Univ. 2 *Kinzo Kishida 1,Ken'ichi Nishiguchi 2,Li Che-Hsien 1 |
|
7 |
Damage detection in composite structures by using an ultrasonic propagation system with FBG sensors |
IIS, Univ. of Tokyo 1, Graduate School of Frontier Sciences, Univ. of Tokyo 2 *Okabe Yoji 1, Takeda Nobuo 2 |
|
8 |
Mode lock laser FBG sensor system |
Anritsu Takanori Saitoh |
|
9 |
Fiber Optic Nerve Systems with Synthesis of Optical Coherence Function |
Univ. of Tokyo 1 *Hotate Kazuo 1,He Zuyuan 1 |
Japan-Korea session: Progresses in the Spin-RAM Domain wall new devices and Spintronics |
March 31 13S:00〜16:55 |
31p-L- / 0 |
▲ |
1 |
Introductory Talk, Japan-Korea Session: Progresses in the Spin-RAM, Domain Wall New Devices, and Spintronics (20 min) |
AIST 1, Osaka Univ. 2, NIMS 3, Panasonic 4 *Hitoshi Kubota 1, Yoshishige Suzuki 1,2, Seiji Mitani 3, Akihiro Odagawa 4 |
▲ |
2 |
Perpendicular Spin Torque in MgO-based Magnetic Tunnel Junctions (30min) |
Samsung Electronics 1,Korea Basic Science Institute 2, SPINTEC 3, Korea Univ. 4 S.-C. Oh 1, S.-Y. Park 2, A. Manchon 3, J.-E. Lee 1, K.-T. Nam 1, Y. Jo 2, H. Suh 4, Y.-C. Kong 4, B. Dieny 3, K.-J. Lee 4 |
▲ |
3 |
Spin transfer torque magnetization reversal and SPRAM |
ARL, Hitachi, Ltd. 1, CRL, Hitachi, Ltd. 2 Tohoku Univ. 3 *Kenchi Ito 1, Jun Hayakawa 1, Katuya Miura 1,3, Hiroyuki Yamamoto 1,3, Michihiko Yamanouchi 1, Masahiko Ichimura 1, Ryoko Sugano 1, Kenichi Meguro 2, Riichiro Takemura 2, Takayuki Kawahara 2, Ryutaro Sasaki 3, Haruhiro Hasegawa 3,1, Syoji Ikeda 3, Hiromasa Takahashi 1, Hideyuki Matsuoka 1, Hideo Ohno 3 |
|
4 |
Spin Torque Transfer Switching of perpendicular MTJ (30 min.)
|
Toshiba Corporation Hiroaki Yoda |
|
|
Break 14:50〜15:00 |
|
▲ |
5 |
Magnetic Packet Memory (MPM) with perpendicular anisotropy [CoFe/Pt]n (30min) |
SAMSUNG ELECTRONICS SAIT 1 Ji-Young Bae 1, Young-Jin Cho 1, Sung-Chul Lee 1, Ung-Hwan Pi 1, Jin-Sung Huh, *Sunae Seo 1 |
▲ |
6 |
Spin Transfer Torque inside of the Domain Wall Structures with Non-Equilibrium Green Functions (30min) |
Inha Univ. Korea1,Korea Univ. 2, POSTECH Korea 3 Chun-Yeol You 1, Kyung-Jin Lee 2, Hyun-Woo Lee 3 |
|
7 |
Domain wall dynamics and the current induced domain wall motion in perpendiculary magnetizaed wires (30 min.)
|
Kyoto University ○Teruo Ono |
▲ |
8 |
Electrical switching controlled by magnetic field (20min) |
Korea Univ. 1, KIST Korea 2 Jinsoe Lee 1, Sungjung Joo 1, TaeYep Kim 1, Jinki Hong 1, *Kungwon Rhie 1, Kyung-Ho Shin 2 |
▲ |
9 |
Closing remarks |
NIMS Mitani Seiji |
How do you educate interest of physics to students? ‐ Mainly on wave and optics |
March 31 13:30〜17:00 |
31p-N- / 0 |
|
1 |
Introductory Talk:How do you educate interest of physics to students? ‐Mainly on “the wave and optics”‐ |
Tokyo Univ. of Science 1, Tokyo Univ. of Technology 2 *Shizutoshi Ando 1, Hiroshi Kezuka 2 |
|
2 |
Science Demonstration in the junior high school science class II |
Harue Junior High School 1 Hideya Gessou 1 |
|
3 |
Kundt's experiment and Visualization of the sound |
Komatsubara High School 1 *Yoshimura Tokiro 1 |
|
4 |
Science Education Utilizing Decomposition of the Optical System |
Toukai Univ. 1. *Shibuya Takehisa 1. |
|
|
Break 15:05〜15:15 |
|
|
5 |
Invitation to the attractive world of light -From classics optical phenomena to optical information engineering through experiments- |
Japan Women's Univ. Kodate Kashiko 1, *Ogawa Kyo 1, Komai Yuki 1 |
|
6 |
Science experiment classes on optical phenomena and technologies |
Chitose Inst. of Science & Technology 1 *Hasegawa Makoto 1 |
|
|
Break 16:15〜16:20 |
|
|
7 |
Discussion |
|
Approaches to Environmental Issues from Vacuum Science &Technology ー proposed by The Vacuum Society of Japan |
March 31 13:30〜16:30 |
31p-V- / 0 |
|
1 |
Utilities of vacuum related technology for the global environmental problems |
The University of Tokyo, Inst. of Industrial Sci. Okano Tatsuo 1 |
|
2 |
UHV and Environmental Catalysts |
CRC, Hokkaido University Kiytoaka Asakura |
|
3 |
Prevention of hydrogen embrittlement-aiming at the safety of fuel cell systems- |
Kyushu Univ. *Matsuoka Saburo, Kyushu University |
|
|
Break 14:45〜15:00 |
|
|
4 |
Development of an environmentally friendly carbon thin films |
Industrial Research Institute of Ishikawa 1, Onward Ceramic Coating 2 *Haruyuki Yasui 1, Makoto Taki 2, Yuji Hasegawa 2 |
|
5 |
Current status and future prospects of CIGS solar cells and modules |
AIST1, Kagoshima Univ. 2, Tsukuba Univ. 3 Shigeru Niki1, Shogo Ishizuka1, Hironori Komaki1, Yukiko Kamikawa1, Hajime Shibata1, Koji Matsubara1, Hajime Shibata1, Akimasa Yamada1, Norio Terada2, Takeaki Sakurai3, Katsuhiro Akimoto3 |
|
6 |
Solar-heat reflective coatings prepared by rf-sputtering onto glass and plastic sheets |
National Institute of Advanced Industrial Science and Technology (AIST) 1 * Kazuhiko Tonooka 1 |
Creation of nanomaterials by emergemtbuild-up processes |
March 31 13:00〜17:30 |
31p-X- / 0 |
|
1 |
Introduction: Material Science based on Emergent Phenomena |
Osaka Univ. 1 *Kawai Tomoji 1 |
|
2 |
Emergence and Design of Self-Organization Process |
AIST 1 Tomohiko Yamaguchi 1 |
|
3 |
Self-organization and hierarchy |
Kyushu Univ. Shoichi Kai |
|
4 |
3D Nano-structured Liquid Crystals: Molecular Simulation Study |
AIST Makoto Yoneya 1, Jun-ichi Fukuda 1 |
|
5 |
Emergent Self Organization on Metal Oxides Nanowires |
ISIR-Sanken Osaka Univ. 1 *Kawai Tomoji 1, Yanagida Takeshi 1 |
|
|
Break 15:15〜15:30 |
|
|
6 |
Self-Organized Materials Based on Fullerenes: At Nano-, Micro- and Bulk-Scales |
NIMS 1, MPI Colloids and Interfaces 2, JST-PRESTO 3 Takashi Nakanishi 1,2,3 |
|
7 |
Self-Organization of Coordination Polymers and their Nano-interfacial Characteristics |
Kyushu Univ. JST CREST Nobuo Kimizuka |
|
8 |
Emergent Self-Assembly of Nano-Hollow Complex in a Single Structure |
The Univ. of Tokyo 1, CREST 2 *Fujita Makoto 1,2 |
|
9 |
Design of Electroconductive Supramolecular Nanoarchitectures |
Univ. Tokyo Takuzo Aida |
Seeds and Needs of High-Performance Scintillation Detectors |
March 31 13:30〜17:50 |
31p-ZC- / 0 |
|
1 |
Introductory Talk: Seeds and Needs of High-Performance Scintillation Detectors |
NIRS 1, Tohoku Univ. 2 *Kengo Shibuya 1, Masanori Koshimizu 2 |
|
2 |
Novel ZnO Scintillator for Neutron Detection |
Kanazawa Inst. of Tech.1, Japan Atomic Energy Rea. Inst. Japan 2 Nanto Hidehito1, Kinishita Atsushi1, Koyama Shin1, Takei Yoshinori1, Katagiri Masaki2 |
|
3 |
Development and practical use of single crystal scintillators |
Hitachi Chemical *Ishibashi Hiroyuki 1 |
|
4 |
Present status and future prospect of fast scintillators based on semiconductor nanostructures |
Tohoku Univ. 1, NIRS 2 *Koshimizu Masanori 1, Shibuya Kengo 2, Asai Keisuke 1 |
|
|
Break 15:10〜15:30 |
|
|
5 |
Current issues on detectors for spallation neutron sources and prospects for high-performance neutron scintillators |
The University of Tokyo, Dept. of Nuclear Eng. and Management Takahashi Hiroyuki 1, Fujita Kaoru 1, Iyomoto Naoko 1 |
|
6 |
Measurements of Nuclear Resonant scattering with a Fast Scintillator |
KEK 1, JST/CREST 2 Shunji Kishimoto 1,2 |
|
7 |
Development of large-area APD arrays and future prospects for PET scanner |
Tokyo Techi 1, JAXA 2, Hamamatsu Photonics K.K 3 Kataoka Jun 1, Koizumi Makoto 1, Ikeda Hirokazu 2, Ishikawa Yoshitaka 3 |
|
8 |
Development of scintillation detectors for the next generation PET systems |
Hamamatsu Photonics K.K., Central Research Lab. *Yamashita Takaji, Moriya Takahiro, Omura Tomohide, Sakai Toshiaki, Fukumitsu Kenshi, Osuka Shinji |
|
9 |
|
|
Current status and applications of magnetic filed generation technology |
March 31 13:15〜17:35 |
31p-ZD- / 0 |
|
1 |
Introductory talk: Current status and applications of magnetic filed generation technology |
IMR, Tohoku Univ. 1 Takahashi Kohki 1 |
|
2 |
Current Status and Application of Rare-Earth Permanent Magnets |
Grad. Sch. Sci. & Eng., Yamagata Univ. 1, NICHe, Tohoku Univ. 2 *Hiroaki Kato 1,2 |
|
3 |
Compactly Composed Trapped Field Magnets by Bulk Superconductor and Their Applications |
Niigata Univ. 1, JSO 2 Oka Tetsuo 1, Fukui Satoshi 1, Ogawa Jun 1, Sato Takao 1, Yamaguchi Mitsugi 2 |
|
4 |
Magnets for materials processing |
NIMS *Matsumoto Shinji, Asano Toshihisa, Kiyoshi Tsukasa |
|
5 |
Recent Progress of Cryocooled Superconducting Magnets |
IMR, Tohoku Univ.1 *Nishijima Gen |
|
|
Break 15:20〜15:35 |
|
|
6 |
Present Status and Future Vision of High-Field Superconducting Magnets |
NIMS *Kiyoshi Tsukasa 1 |
|
7 |
Development of the resistive magnet |
National Inst. for Materials Science 1 *Asano Toshihisa |
|
8 |
Experimental studies on magnetic materials by using non-destructive pulse magnets |
Osaka Univ. 1 *Kimura Shojiro 1, Hagiwara Masayuki 1 |
|
9 |
Megagauss Field Generation and the Application to Material Science |
Institute for Solid State Physics, Univ. Tokyo Yasuhiro H. Matsuda 1 |
Toward the 10% efficient organic solar cells |
March 31 13:00〜18:05 |
31p-ZE- / 0 |
|
1 |
Toward the 10% efficient organic thin-film solar cells |
Institute for Molecular Science *Hiramoto Masahiro 1 |
|
2 |
Research of High Performance Organic Photovoltaic Cells |
AIST RCPV 1 * Tetsuya Taima 1 |
|
3 |
Chemistry-Based Design of Organic Solar Cells |
iCeMS, Kyoto Univ. 1, Grad. Sch. Eng., Kyoto Univ. 2 *Imahori Hiroshi 1,2 |
|
4 |
Performance measurement techonologies for organic thin film solar cells. |
AIST HISHIKAWA Yoshihiro |
|
5 |
New Developments in Polymer Solar Cells |
The Univ. of Tokyo 1, JST-ERATO 2 *Keisuke Tajima 1, Kazuhito Hashimoto 1, 2 |
|
|
Break 15:50〜16:05 |
|
|
6 |
|
|
|
7 |
Study on Polymer-based Solar Cells for Practical Applications -Problems and Prospects- |
ADEKA Corp. 1 Kiyoshi Musha 1 |
|
8 |
Manufacture technology of an organic thin film Photovoltaic cell module |
Tokki Co.1, AIST2, Nagaoka Univ.3 *Matsumoto Eiichi1, Abe Yoshiko1, Abe Yamato1, Ichihara Masahiro1,Taima Tetsuya2, Yoshida Yuji2, Masuda Atsushi2, Miyata Daisuke3, Ito Yoshiro3 |
Exploring new avenues to a viable Si LED |
March 31 13:00〜17:00 |
31p-ZT- / 0 |
|
1 |
Current Trends in the Development of Si LEDs |
Graduate School of Arts and Sciences, University of Tokyo Susumu Fukatsu 1 |
|
2 |
Ultra-thin Silicon Resonant Cavity Light-Emitting Diode |
Hitachi Ltd. Central Research Lab. 1, SORST JST 2 Shin-ichi Saito 1,2 |
|
3 |
Control of Auger recombination in semiconductor nanostructures |
Kyoto Univ. 1 *Tayagaki Takeshi 1, Kanemitsu Yoshihiko 1 |
|
4 |
Enhanced light emission from Si ring resonators and possibility of direct bandgap in strained Ge |
Univ. Tokyo 1 *Yasuhiko Ishikawa 1, Kazumi Wada 1 |
|
|
Break 14:45〜15:00 |
|
|
5 |
Light emission enhancement from silicon in photonic crystals and nanocavities |
Kyoto Univ. 1 Masayuki Fujita 1, Yoshinori Tanaka 1, Susumu Noda 2 |
|
6 |
Enhancement of silicon light emission by using photonic crystal nanoavities –effects of mode volume and in-plane propagation- |
RCAST & IIS, INQIE, Univ. of Tokyo *Satoshi Iwamoto 1, Yasuhiko Arakawa 1 |
▲ |
7 |
Current-injected Si-based light emitting devices based on Ge dots in optical microcavities |
Musashi Inst. Technology 1,Tohoku Univ. 2 *J.S. Xia 1, R. Tominaga 1, N. Usami 2, Y. Shiraki 1 |
|
8 |
Entanglement generation using silicon wire waveguide |
NTT Basic Research Labs. 1, NTT Microsystem Integration Labs. 2, JST CREST 3 Hiroki Takesue 1,3, Ken-ichi Harada 1,3, Hiroshi Fukuda 2, Tai Tsuchizawa 2, Toshifumi Watanabe 2, Koji Yamada 2, Yasuhiro Tokura 1,3, Sei-ichi Itabashi 2 |
Scientific technology concerning shockphenomena and their application, projected by the research group on shockphenomena and their application |
March 31 10:15〜16:35 |
31a-ZV- / 0 |
▲ |
1 |
Introductory talk: Scientific technology concerning shock phenomena and their application, projected by the research group on shock phenomena and their application |
National Defense Academy 1 *Matsumoto Hitoshi 1 |
|
2 |
In situ observation of shock-loading behavior of powders |
NIMS Toshimori Sekine |
|
3 |
Peculiar nano-structure accompanied by shock-induced phase transition and chemical reaction and its application |
Tokyo Tech. MSL 1, Tohoku Univ. IMR 2, Tohoku Fukushi Univ. Kansei-Lab. 3 *Toshiyuki Atou 1,Nobuaki Kawai 1, Kazutaka Nakamura 1, Ken-ichi Kondo 1, Syun Ito 2, Masae Kikuchi 3 |
|
4 |
High-Speed Temperature Measurement of Metal Vapor/Particle in Pulsed Wire Discharge and the Phase Change of the Prepared Nanoiszed Powders |
Nagaoka Univ. Tech. 1 * Hisayuki Suematsu 1, Yu Shikoda 1, Yoshinori Tokoi 1, Satoru Ishihara 1, Tsuneo Suzuki 1, Tadachika Nakayama 1 and Koichi Niihara 1 |
|
5 |
Fabrication of a Bulk BPSCCO Magnetic Diode by Use of the Shock Compaction Method |
Interdisci. Grad. School of Sci. and Engi., Grad. School of Kinki Univ. 1, School of Computer Sci., Tokyo Univ. of Technology 2, Department of Materials Sci. and Engi., National Defense Academy *Fujita Hiroyuki 1, Miwa Takahiro 1, Itoh Mineo 1, Kezuka Hiroshi 2, Matsumoto Hitoshi 3, Kishimura Hiroaki 3 |
|
6 |
Measurement and evaluation by the load cell of the impact force which a human body receives |
Nat. Inst. Longevity Sci. 1 :*Ito Yasumi 1 |
|
|
Lunch 12:00〜13:00 |
|
31p-ZV- / 0 |
|
1 |
Mitigation of explosion damage |
AIST 1 *Homae Tomotaka 1 |
|
2 |
Fundamental Property of Hydrodynamic Ram Induced in Fuel Tank |
Ground Systems Research Center, TRDI, MOD 1 Masayuki Sakamoto 1, Masayoshi Yamada 1, Akira Nakamura 1 |
|
3 |
Application of shock waves to inactivation of marine bacteria in ship ballast water |
Kobe Univ. 1, Tohoku Univ. 2 *Abe Akihisa 1, Ohtani Kiyonobu 2, Takayama Kazuyoshi 2, Mimura Haruo 1, Nishio Shigeru 1, Takeda Minoru 1 |
|
4 |
Underwater shock wave application for food processing |
Shock Wave and Condensed Matter Research Center, Kumamoto Univ. Shigeru Itoh |
|
|
Break 14:40〜14:50 |
|
|
5 |
Preliminary Study on Shock-Free TEA-CO2 Laser with Supersonic Gas Flow |
Niigata Inst. Technol. 1, Nagaoka Univ. Technol. 2 *Imada Go 1,2, Suzuki Masataro 2, Masuda Wataru 2 |
|
6 |
Vortex Generation in Shock Wave-Contact Surface Interaction and its Applications |
Nagoya Univ. 1 *Akihiro Sasoh 1 |
|
7 |
Surface modification of iron and steels using femtosecond laser-driven shock wave |
Osaka Univ. 1, National Defense Acad. 2 *Tomokazu Sano 1, Toru Nakashima 1, Takahiro Tsukada 1, Tomo Ogura 1, Masayuki Okoshi 2, Narumi Inoue 2, Akio Hirose 1 |
|
8 |
Improvement of fatigue strength of structural components by laser shock method |
Toshiba Corp. 1 *Sano Yuji 1 |
|
9 |
Shock-induced transformation of carbon materials and its mechanism |
MSL TokyoTech 1, AIST 2, Hyogo Univ. Teacher Education 3 *Nakamura Kazutaka 1, Yokoo Manabu 1, Kondo Ken-ichi 1, Homae Tomotaka 2, Niwase Keisuke3 |
Correlation between Nanostructure and Functionality in Oxides |
March 31 13:30〜17:20 |
31p-ZW- / 0 |
|
1 |
Correlation between Nanostructure and Functionality in Oxides - Introductory Talk - |
AIST-NIRC 1 Akinaga Hiro 1 |
|
2 |
Optical and Electrical Functions in Wide Band Gap Ga2O3-Based Oxide Semiconductors |
Kyoto Univ. Fujita Shizuo |
|
3 |
Optical Response in Multiferroic: Directional Birefringence/Dichroism |
Tohoku Univ. 1 *Arima Taka-hisa 1 |
|
4 |
Transition Metal Oxide Nano-structures and their nano-scale physical properties |
ISIR, Osaka Univ. Hidekazu Tanaka 1 |
|
|
Break 15:25〜15:35 |
|
|
5 |
Blue light emission from micro-fabricated SrTiO3 |
Kyoto Univ., LTM Center Terashima Takahito |
|
6 |
Crystal growth technology of CsLiB6O10 for high power UV generation |
Graduate School of Eng., Osaka Univ. 1, JST-CREST 2 *Yusuke Mori 1,2, Masashi Yoshimura 1,2, Yushi Kaneda 1,2, Takahiro Kawamura 1,2, Yasuo Kitaoka 1,2, Takatomo Sasaki 1,2 |
|
7 |
Photoemission study of metal/oxide interfaces showing resistance switching behavior |
The Univ. of Tokyo 1, JST-CREST 2, and UT-SRRO Hiroshi KUMIGASHIRA 1,2,3 |
The state-of-the-art of integrated MEMS technology for industrialization |
March 31 10:00〜17:30 |
31a-TB- / 0 |
|
1 |
Introductory Talk: Integrated MEMS Technology |
Toyohashi Univ. of Tech. *Makoto Ishida |
|
2 |
Integrated MEMS from the past to the future |
Tohoku Univ. Shuji Tanaka |
|
3 |
Design Platform based on equivalent circuits of MEMS devices |
Shizuoka Univ. *Gen Hashiguchi |
▲ |
4 |
IMEC's Strategy and Activity on MEMS |
IMEC Philip Pieters |
|
|
Lunch 12:00〜13:15 |
|
31p-TB- / 0 |
|
1 |
Integrated MEMS technology from MEMS foundry point of view |
Fuji Electric Systems Co.,Ltd Takei Masahiko |
▲ |
2 |
Integrated MEMS R&D using Foundry Service in Taiwan |
Industrial Research Technology Institute Chiung-I LEE |
|
3 |
Integration Technologies of MEMS, Sensor and Integrated Circuits |
Toyohashi Univ. of Technology *Hidekuni Takao 1 |
|
|
Break 14:45〜15:00 |
|
|
4 |
Anti-sticking technology for high-reliable MEMS devices |
NTT Microsystem Integration Labs. 1, NTT Advanced Technology Corp. 2 Sakata Tomomi 1, Ishii Hiromu 1, Machida Katsuyuki 2, Sato Yasuhiro 1 |
|
5 |
Testing Technology for MEMS devices |
Tokyo Electron Ltd. 1 *Watanabe Chip 1 |
|
6 |
The sealing technology for MEMS |
Dainippon Screen Mfg.co.,ltd. R&D 1 *Adachi Hideki 1 |
|
7 |
Advanced Laser Dicing Technology for MEMS - Stealth Dicing - |
Hamamatsu Photonics Electron Tube Div. Manuf.#6 Uchiyama Naoki |
|
8 |
Discussion |
|
"Nano Materials Science for Atomic Scale Modificationand Material Innovation" organized byThin Film and Surface Physics Division |
March 31 13:00〜16:50 |
31p-TD- / 0 |
|
1 |
Nano Materials Science for Atomic Scale Modification |
Univ.Tokyo 1, JFCC 2, Tohoku Univ. 3 Ikuhara Yuichi 1,2,3 |
|
2 |
Control of cation ratio in perovskite solid thin films and surface atomic structure in STO substrates |
Tokyo Univ. 1, NIMS 2 *Yamamoto Takahisa 1, Tokuda Masanori 1, Ohnishi Tsuyoshi 2 |
|
3 |
XAFS analysis for atomic scale modification |
Nagoya Univ.1 *Tomoko Yoshida1 |
|
4 |
Materials Exploration through First Principles Statistical-Thermodynamics Methods |
Dept. Mater. Sci. Eng., Kyoto Univ.1, PRU, Kyoto Univ.2, JFCC3 *Isao Tanaka1,3, Atsuto Seko2, Yukinori Koyama1, Fumiyasu Oba1 and Katsuyuki Matsunaga1,3 |
|
5 |
Atom discrimination mapping and bottom-up fabrication using atomic force microscopy |
Osaka Univ. 1, PRESTO-JST 2 *Abe Masayuki 1,2, Sawada Daisuke 1, Yurtsever Ayhan 1, Sugimoto Yoshiaki 1, Morita Seizo 1 |
|
|
Break 15:00〜15:20 |
|
|
6 |
Interface characterization by ultra high resolution STEM and EELS |
Univ. Tokyo 1, JST-PRESTO 2, JFCC Nanostrcture Lab. 3, Tohoku Univ. WPI 4 *Shibata Naoya 1,2, *Mizoguchi Teruyasu 1, Yamamoto Takahisa 1,3, Ikuhara Yuichi 1,3,4 |
|
7 |
Nanoscale Structure Analysis of Advanced Electroceramics for Industrial Applications |
Taiyo Yuden Co., Ltd. 1 *Toshimasa Suzuki 1, Keisuke Kobayashi 1, Minoru Ryu 1, Youichi Mizuno 1 |
|
8 |
Diagnostic image analysis of nanotechnology-related materials by complex electron spectroscopic methods |
Nagoya Univ. 1 *Muto Shunsuke 1 |
New science and technology of solar cells in the next generation |
March 31 9:00〜18:00 |
31a-TG- / 0 |
|
1 |
Introductory talk: Development of science and technology on solar cells for next generation |
RIAM, Kyushu University Koichi Kakimoto |
|
2 |
Recent progress in photovoltaic |
Toyota Technological Inst. *Yoshio Ohshita1 |
|
3 |
Technology of next generation polycrystalline photovoltaics -Development of CDS(Crystallization on Dipped Substrate) Process- |
SHARP Corp. Materials Business Promotion Center ,1 *Yano Kozaburo 1, Taniguchi Hiroshi 1, Yoshida Kohji 1, Goma Syuuji 1, Kidoguchi Susumu 1, Ooishi Ryuuichi 1, Yamatsugu Hokuto 1 |
|
4 |
Production Technology Development Led by Research Institute – ECN's production technology of c-Si solar cell |
ECN Yuji Komatsu |
|
|
Break 10:35〜10:50 |
|
|
5 |
Current Status of Silicon for Solar Cell |
RTS-Corpration 1 *Fukuo Aratani 1 |
|
6 |
Requirements for silicon used in solar cells (30 min.)
|
Elkem Solar AS *Kenneth Friestad |
|
7 |
Ductile machining of silicon crystals |
Tohoku Univ. Jiwang Yan |
|
|
Lunch 12:15〜13:15 |
|
31p-TG- / 0 |
|
1 |
Characteristics of chemical bonds in CuInSe2 and fabrication process of the thin films |
Ryukoku Unv. *Takahiro Wada 1, Tsuyoshi Maeda 1 |
|
2 |
Current status and research activities of CIGS solar cells and modules |
AIST1, Kagoshima Univ. 2, Tsukuba Univ. 3 Shigeru Niki1, Shogo Ishizuka1, Hironori Komaki1, Yukiko Kamikawa1, Hajime Shibata1, Koji Matsubara1, Hajime Shibata1, Akimasa Yamada1, Norio Terada2, Takeaki Sakurai3, Katsuhiro Akimoto3 |
|
3 |
Epitaxial growth technology of III-V semiconductor high-efficiency solar cells |
School of Engineering 1, RCAST 2, Univ. of Tokyo *M. Sugiyama 1, Y. Shimogaki 1, Y. Okada 2, Y. Nakano 1,2 |
|
4 |
Mechanisms for formation of microstructures in multicrystals during crystal growth |
IMR, Tohoku Univ. 1 *Noritaka Usami 1,Kenrato Kutsukake 1,Kozo Fujiwara 1,Kazuo Nakajima 1 |
|
5 |
Dynamic simulation of crystal growth of silicon for solar cells and LSIs |
RIAM, Kyushu University *Koichi KAKIMOTO, X. J. Chen, H. Matsuo, S. Hisamatsu, S. Nakano and Y. Kangawa |
|
|
Break 15:25〜15:40 |
|
|
6 |
Local Characterization of Polycrystalline Silicon Solar Cells by Photo-assisted KFM |
IIS, Univ. of Tokyo 1, INQIE, Univ. of Tokyo 2 *Takahashi Takuji 1,2, Takihara, Masaki 1 |
|
7 |
Metallic Impurities Content in Solar Cell Grade Silicon and Large Scale Integration Grade Silicon and Their Gettering |
SUMCO Corp. 1 *Mohammad Shabani 1, Yamashita Takafumi 1, Morita Etsurou 1 |
|
8 |
Novel Passivation Techniques for c-Si Solar Cells |
Tokyo Tech Graduate School 1, Tokyo Tech PVREC 2 Makoto Konagai1,2, Junpei Irikawa1, Shinsuke Miyajima1, Akira Yamada1,2 |
|
9 |
Progress of the High Efficiency Crystalline Silicon Solar Cell |
KYOCERA CORPORATION *Yamatani Muneyoshi |
|
10 |
Recent Progress of High-efficiency HIT solar cells |
Advanced Energy Research Center, SANYO Electric Co., Ltd. 1 Eiji Maruyama |
Evolution of Light Generation and Manipulation - Frontier and New Prospects - |
March 31 10:00〜15:10 |
31a-TH- / 0 |
▲ |
1 |
「Frontier and New Prospects in Optical Science」introductory talk |
Tohoku Univ. 1,JST PRESTO 2 *Ito Hiromasa 1 |
▲ |
2 |
Optical Frequency Combs and Clocks – some history and some expectations |
JILA 1 *Hall John 1 |
▲ |
3 |
Precision atomic spectroscopy with phase-coherent VUV pulses |
NICT 1, JST-PRESTO 2 *Tetsuya Ido 1 2 |
▲ |
4 |
Optical control of matter-wave solitons in an atom-wave circuit |
Univ. Fukui 1, JST PRESTO 2 *Kumakura Mitsutaka 1,2 |
|
|
Lunch 11:50〜13:30 |
|
31p-TH- / 0 |
▲ |
1 |
Topological light-wave synthesis |
Chiba University Takahsige Omatsu |
▲ |
2 |
Light takes shape: Novel Photonics for the Colloidal and Biomedical Sciences |
University of St. Andrews Dholakia Kishan |
▲ |
3 |
Generation of octave-spanning Raman comb stabilized to an optical frequency standard |
University of Electro-Communications Katsuragawa Masayuki |
15:10〜17:00 Poster Presentation |
|
4 |
Spatial Control of Number-State Photon Pulses |
Tokyo M&D Univ. 1, JST-PRESTO 2 *Kazuki Koshino 1,2 |
▲ |
5 |
Toward the implementation of photon-echo-based quantum memory using quantum dots |
The Univ. of Electro-Communications 1, JST-PRESTO 2, National Inst. of Information and Communications Technology 3, Sophia Univ. 4 Junko Ishi-Hayase 1,2,3,4 |
▲ |
6 |
Study of nondispersing wave packets and their application to quantum control |
Aoyama Gakuin Univ. Dept. of Phys. & Math. H. Maeda |
▲ |
7 |
Quantum Manipulation of Atoms and Photons with Cavity QED |
Kyoto Univ. 1, JST 2 *Takao Aoki 1,2 |
▲ |
8 |
Generation of frequency-correlated photon pairs in spontaneous parametric down-conversion |
PRESTO-JST 1, Tohoku Univ. 2 *Shimizu Ryosuke 1, Edamatsu Keiichi 2 |
|
9 |
Optical property of metallic photonic crystals and metamaterials in terahertz region |
Shinshu Univ. 1, PRESTO 2 *Fumiaki Miyamaru 1, 2 |
|
10 |
Intense THz electromagnetic pulse generation and its application to spectroscopy |
Kyoto Univ. 1, PRESTO JST 2 Nagai Masaya 1,2 |
▲ |
11 |
Investigation of molecular vibrational dynamics by short optical pulses in the infrared |
Tokyo Univ. of Agri.&Tech. 1, PRESTO/JST 2 *Satoshi Ashihara 1,2 |
|
12 |
ACCURATE RETRIEVAL OF STRUCTUAL INFORMATION FROM LASER-INDUCED PHOTOELECTRON AND HIGH-ORDER HARMONIC SPECTRA BY FEW-CYCLE INTESE LASER PULSES |
Univ. of Elevtro-Communications 1, JST PRESTO 2 Toru Morishita 1,2 |
|
13 |
Development of a high harmonics beamline for coherent molecular dynamic imaging |
ISSP, Univ. of Tokyo 1, JST-PRESTO 2 *Itatani Jiro 1,2 |
|
14 |
Deveolpment of Devices for Atomtronics in Optical Lattices |
Graduate School of Human and Environmental Studies, Course of Studies on Material Science, Kyoto University 1, JST PRESTO 2 Toshiya Kinoshita 1,2 |
|
15 |
Plasmonic Metamaterials |
RIKEN 1, JST PRESTO 2 *Takuo Tanaka 1, 2 |
▲ |
16 |
Super-macroscopic quantum mechanical phenomena actualized by gravitational wave detection techniques |
ICRR Univ. of Tokyo Shinji Miyoki 1 |
▲ |
17 |
Controlling cells function with light technology |
Osaka Univ. 1, JST PRESTO 2, Massachusetts General Hosp. 3 *Kushibiki Toshihiro 1,2,3 |
Evolution of Light Generation and Manipulation - Frontier and New Prospects - |
April 1 10:00〜17:00 |
1a-TH- / 0 |
▲ |
1 |
Extreme Nonlinearity: Attosecond-Angstrom Science |
Univ. of Ottawa 1, NRC of Canada 2 Corkum Paul B. 1,2 |
▲ |
2 |
Atomic and molecular dynamics in ultrashort intense laser pulses |
RIKEN-CSRP 1 *Ishikawa Kenichi L. 1 |
▲ |
3 |
Visualizing ultrafast chemical reactions by Coulomb explosion imaging and photoelectron holography |
IMS 1, SOKENDAI 2, JST PRESTO 3 *Hishikawa Akiyoshi 123 |
|
|
Lunch 11:45〜13:30 |
|
1p-TH- / 0 |
▲ |
1 |
Direct detection of the electric field in optical frequency region using photoconductive antenna |
Graduate School of Engineering Science, Osaka Univ. 1, PRESTO, JST 2 *Ashida Masaaki 1,2 |
▲ |
2 |
Time resolved studies of order parameter dynamics in superconductors and density waves |
Univ. of Konstanz 1, Jozef Stefan Inst. 2 Jure Demsar 1,2 |
|
|
Break 14:40〜15:00 |
|
▲ |
3 |
Quantum control of molecular process by using phase-controlled lights and its application to instrumentation frontier |
AIST 1, PRESTO JST 2 Ohmura Hideki 1,2 |
▲ |
4 |
Femtosecond imaging of surface plasmon dynamics in nano-optics. |
Inst. of Physics, Univ. of Tsukuba 1, PRESTO JST 2 Kubo Atsushi 1,2 |
▲ |
5 |
Manipulation of electrons and photons by controlling coherent lattice vibrations - Coherent phonon in solids and its applications - |
Univ. of Tsukuba 1, PRESTO-JST 2 Muneaki Hase 1,2 |
|
6 |
Discussion |
|
Nano-structuresof Si- and C-Materials, and their Excitation Processes |
April 1 13:00〜17:40 |
1p-D- / 0 |
|
1 |
Introduction: Si-nanostructures, C nanostructures and Excitation Processes |
Inst. Applied Physics, Uni. of Tsukuba Kouichi Murakami |
|
2 |
Structural and property changes of carbon nanotubes induced by low-energy irradiation |
NTT Basic Res. Labs. 1 *Satoru Suzuki 1, Yoshihiro Kobayashi 1 |
|
3 |
Defect Generation Induced by Electronic Excitations in Single Walled Carbon Nanotubes |
The Univ. of Tokyo 1 *Mera Yutaka 1, Maeda Koji 1 |
|
4 |
Structural deformation of nano-carbons under high-intensity light: A time-dependent first-principles approach |
Nano Electronics Research Laboratories, NEC Corp. Yoshiyuki Miyamoto |
|
|
Break 15:10〜15:30 |
|
|
5 |
Modulation of tunneling to quantum dots via electronic excited states |
Univ. of Tsukuba1, Tohoku Univ.2, Hiroshima Univ. 3 *S. Nomura 1, Y. Sakurai 1, Y. Takada 1, K. Shiraishi 1, M. Muraguchi 2, T. Endoh 2, M. Ikeda 3, K. Makihara 3 and S. Miyazaki 3 |
|
6 |
A review on fabrication processes of top-down manufactured Si nanowire FETs and their electrical characteristics |
Tokyo Tech. FRC 1, Tokyo Tech. IGSSE 2, Waseda Univ. INN 3 *Iwai Hiroshi 1, Yamada Keisaku 3, Ohmori Kenji 3, Tsutsui Kazuo 2, Kakushima Kuniyuki 2, Ahmet Parhat 1, Sato Soushi 1, Kamimura Hideyuki 1, Arai Hideaki 1 |
|
7 |
Botom-up method: Synthesis and impurity doping in silicon nanowires by laser ablation |
NIMS 1, PRESTO JST 2, Inst. of Appl. Phys., Univ. of Tsukuba 3 *Fukata Naoki 1,2, Sekiguchi Takashi 1, Seoka Masanori 3, Saito Naoyuki 3, and Murakami Kouichi3 |
|
8 |
Bottom-up method: In situ observation of the structure, electric conduction and mechanical strength of Si nanowires |
Univ. of Tsukuba Kizuka Tokushi 1 |
|
9 |
Closing Talk |
Wakayama Univ. 1 *Shinozuka Yuzo 1 |
Effective Photo-Energy Conversion at Nano/Micro Structures |
April 1 13:00〜17:30 |
1p-L- / 0 |
|
1 |
Creation of Strong Photon-Molecule Coupling Fields for Chemical Reactions |
RIES, Hokkaido Univ. 1 Misawa Hiroaki 1 |
|
2 |
Micro- and Nanospaces based on ordered porous structures and their optical applications |
Tokyo Metropolitan Univ. 1, KAST 2 *Masuda Hideki 1,2, Kondo Toshiaki 2, Yanagishita Takashi 1,2, Nishio Kazuyuki 1,2 |
|
3 |
High sensitivity material analysis by two dimensional ordered metal structure |
FUJIFILM Corporation Masayuki Naya, Yuichi Tomaru, Naoki Murakami, Jimbo Li, Takeharu Tani |
|
4 |
Sub-µm patterning of organic monolayers by VUV lithography: Its application to the fabrication of gold nanoparticle arrays |
Department of Materials Sceinece and Engineering, Kyoto Univ. *Sugimura Hiroyuki 1, Khatri Om Prakash 1, Kim Young-Jong 1, Yang Jeong-Hyeon 1, Hatanaka Takeshi 1, Sano Hikaru 1, Ichii Takashi 1, Murase Kuniaki 1 |
|
5 |
Investigation of Chemical Reaction at Strong Photon-Molecule Coupling Fields Induced on Organic-Metal Hetero Nano-Interface |
IMRAM, Tohoku Univ. *Oikawa Hidetoshi 1,Masuhara Akito 1 |
|
|
Break 15:10〜15:30 |
|
|
6 |
Visualization of localized optical field distributions in metal nanostructures based upon near-field spectroscopy |
Inst. Mol. Sci. and The Grad. Univ. Adv. Studies 1 *Hiromi Okamoto 1, Kohei Imura 1 |
|
7 |
Control of excited states via spatial interplay between localized electromagnetic field and molecular system |
Osaka Prefecture Univ. *Hajime Ishihara 1, Takuya Iida 1 |
|
8 |
Analysis of photon-localization within microcavity structures |
RIES, Hokkaido Univ. 1 *Sasaki Keiji 1 |
|
9 |
In-situ observation of a Small Number of Molecules in Strong Photon-Molecule Coupling Field at Metal Nano-Gap |
Hokkaido Univ. 1 *Murakoshi Kei 1, Kiguchi Manabu 1, Nabika Hideki 1 |
New materials and structures for extending CMOS technology to nanoscale era |
April 1 13:00〜18:00 |
1p-X- / 0 |
|
1 |
New materials and structures for extending CMOS technology to nanoscale era |
AIST Toshihiko Kanayama |
|
2 |
Current Status and Key Issues in Silicon Nanoelectronics |
Nagoya Univ. *Shigeaki Zaima |
|
3 |
Compact Modeling of Si Nanowire MOSFETs –Ballistic Characteristics and the way to Quasi-Ballistic Transport- |
Univ. of Tsukuba 1 Natori Kenji 1 |
|
4 |
Current Status of Silicon Nanowire FET Research and Concept for the Roadmap Formation |
Tokyo Tech. FRC 1, Tokyo Tech. IGSSE 2, Univ. of Tsukuba 3, Waseda Univ. INN 4 *Iwai Hiroshi 1, Natori Kenji 3, Shiraishi Kenji 3, Yamada Keisaku 4, Ohmori Kenji 4, Tsutsui Kazuo 2, Kakushima Kuniyuki 2, Ahmet Parhat 1 |
|
5 |
Mobility and Strain Effects in Silicon Nanowire Transistors |
IIS., Univ. of Tokyo Toshiro Hiramoto, Jiezhi Chen, YeonJoo Jeong, and Takuya Saraya |
|
6 |
Formation of Epitaxial NiSi2 SOurce/Drain in Si Nanowires |
AIST-NIRC 1 *Migita Shinji 1, Morita Yukinori 1, Ota Hiroyuki 1 |
|
|
Break 15:25〜15:40 |
|
|
7 |
Interface engineering for high-performance III-V MISFETs |
AIST 1, NIMS 2, Sumitomo Chemical 3 *Miyata Noriyuki 1, Ishii Hiroyuki 1, Itatani Taro 1, Yasuda Tesuji 1, Ohtake Akihiro 2, Yamada Hisashi 3, Fukuhara Noboru 3, Hata Masahiko 3 |
|
8 |
Channel and source/drain formation technologies for ultrathin body III-V-OI MOSFETs |
Univ. Tokyo 1 *Mitsuru Takenaka 1, Masafumi Yokoyama 1, Takuya Hoshii 1, Momoko Deura 1, Takashi Haimoto 1, Shota Nakagawa 1, Sanghyeon Kim 1, Masakazu Sugiyama 1, Shinichi Takagi 1 |
|
9 |
Carbon Nanotube FETs: Characteristics and Prospect |
Grad. School of Eng.1, VBL2, Nagoya Univ. Takashi Mizutani1, Yutaka Ohno1, Shigeru Kishimoto1,2 |
|
10 |
Photoemission-controlled plasma CVD process of multi-layer graphene for LSI interconnects |
CREST-JST 1, Tohoku Univ. 2, JASRI 3, Fujitsu Ltd. 4 *Ogawa Shuichi 1,2, Sumi Haruki 2, Takami Tomohide 1,2, Saikubo Akihiko 1,3, Ikenaga Eiji 1,3, Nihei Mizuhisa 1,4, Takakuwa Yuji 1,2 |
▲ |
11 |
Epitaxial Graphene Formed on a Si substrate and Its Transistor Application |
RIEC, Tohoku University1, JST-CREST2 *Hyun-Chul Kang1, Hiromi Karasawa1, Yuu Miyamoto1, Hiroyuki Handa1, Tetsuya Suemitsu1,2, Maki Suemitsu1,2, Taiichi Otsuji1,2 |
|
12 |
Closing Talk |
Selete Hisatsune Watanabe |
What happens in a post-scaling era? - From a view points of device and condensed matter physics - |
April 1 13:30〜17:50 |
1p-ZT- / 0 |
|
1 |
Introductory Talk: Solid-State Physics/Device Physics and Post-Scaling Technology |
Nagoya Univ. *Shigeaki Zaima |
|
2 |
What are the important roles of device and material physics in coming post-scaling era? |
University of Tsukuba *Kenji Shiraishi |
|
3 |
Fascinating nanostructures: exploration of new functions based on electronic structure theory |
Univ. of Tokyo Atsushi Oshiyama |
|
4 |
Interface Physics in Future Devices ―Schottky Barrier and Quantum Dissipation― |
Chiba Univ. 1 *Nakayama Takashi 1 |
|
5 |
Guideline for the design of gate oxides |
NIMS Naoto Umezawa |
|
|
Break 15:35〜15:50 |
|
|
6 |
Old but new - Physical properties of silicon thermal oxide |
NTT Basic Reserach Labs. 1, Mie Univ. 2, Keio Univ. 3 *Kageshima Hiroyuki 1, Akiyama Toru 2, Uematsu Masashi 3, Ito Tomonori 2 |
|
7 |
Quantum field theory for the study of future device materials |
Kyoto Univ. Tachibana Akitomo |
|
8 |
Future Semiconductor Devices Operated with Small Number of Electrons -A Message from Device Simulations- |
Univ. TSukuba 1 *Nobuyuki Sano 1, Tadayoshi Uechi 1 |
|
9 |
–Importance of Quantum Electronic Dynamics in Future Semiconductor Devices- |
Tohoku Univ. 1, Hiroshima Univ. 2, Univ. of Tsukuba 3 *Muraguchi Masakazu,Endoh Tetsuo, Makihara Katsunori1, Ikeda Mitsuhisa1, Miyazaki Seiichi1, Sakurai Yoko2, Takada Yukihiro2, Nomura Shintaro2, Shiraishi Kenji2 |
Gravity Application Research |
April 1 13:00〜17:05 |
1p-ZV- / 0 |
|
1 |
Introductory Talk (Gravity Application Research Group) |
Kyushu Univ. *Nagayama Kunihito |
|
2 |
Surface kinetics of III-V compound semiconductor material in solution growth |
ISAS/JAXA 1, Shizuoka Univ. 2, Shizuoka Inst. of Sci. and Tech. 3 *Inatomi Yuko 1, Hayakawa Yasuhiro 2, Okano Yasunori 2, Tanaka Akira 2, Ozawa Tetsuo 3, Kinoshita Kyouichi 1 |
|
3 |
Diamond synthesis under microgravity environment with parabolic flights by DAS and S520-24 rocket by JAXA |
Teikyo Univ. Sci. Tec.1, AIST2, ISAS/JAXA3, T. I.T.4, MITSUBISHI PENCIL5 Yoshiki Takagi1, Yoshiyuki Abe2, Shu Usuba2, Yuko Inatomi3, Masaaki Suzuki4, Shinsuke Mori4, Yoshihisa Suda5, Osamu Shimizu5 |
|
4 |
Protein Crystallization for Ultra High Resolution Structure Analysis |
MARUWA Foods and Biosciences 1, Osaka Univ. Inst. for Protein Research 2, Confocal Science 3, OSAKA Bioscience Inst. 4, Japan Aerospace Exploration Agency 5 Koji Inaka 1 2,Naoki Furubayashi 1, Akefumi Higashiura 2, Atsushi Nakagawa 2, Sachiko Takahashi 3, Hiroaki Tanaka 3, Yoshihiro Urade 4, Masaru Sato 5, Tomoyuki Kobayashi 5, Tetsuo Tanaka 5 |
|
5 |
Gravity Dependence of Arc-Discharge Production of Carbon Clusters -from 0G to High G- |
Shizaoka Univ. 1, AIST 2, Kyushu Univ. 3 *Mieno Tetsu 1, Usuba Shu 2, Shiratani Masaharu 3, Koga Kazunori 3 |
|
|
Break 14:45〜15:00 |
|
|
6 |
Self-consistent theory of gravity-induced diffusion and sedimentation of atoms |
Kumamoto Univ. Mashimo Tsutomu |
|
7 |
Centrifugal Isotope Separation in Solid or Liquid |
JAEA 1, Kumamoto Univ. 2 *Masao Ono 1, Ting Hao 1, Satoru Okayasu 1, Fumitaka Esaka 1, Takahito Osawa 1, Yusuke Iguchi 2 and Tsutomu Mashimo 2,1 |
|
8 |
Combustion Behavior of Paper Sheet under Pseudo-High Gravity Field |
Gunma University 1 *Y. Kodaira 1, M. Arai 1 |
|
9 |
Rotational performance evaluations |
Maruwa Electronic Inc. *Sueyoshi Masanori 1 |
|
10 |
Development of centrifugal heating equipment |
Sinto Kogio 1,Sinto V-Cerax 2,AIST 3 *morimitsu Hideki 1,Ishiguro Hirohide 1,Hotta Masaya 1,Aoki Tomohiro 1,Uchimura Shoji 2,Kinemuchi Yoshiaki 3,Watari Koji 3 |
Status of development on SiC power devices contributing to the low-carbon and non-petroleum society |
April 1 13:00〜17:50 |
1p-TG- / 0 |
|
1 |
Current status of SiC power devices for low carbon and post-oil society (Symposium purpose) |
Kyoto Inst. Technology Harima Hiroshi |
|
2 |
The Expectaions about SiC Devices in Electric Vehicles |
Nissan Motor Co., Ltd. Shibuya Akihiro 1 |
|
3 |
An Application of SiC Devices in Industrial Motor Drive Field |
Yaskawa Electric Corporation Kenji Yamada |
|
4 |
Sic |
Tokyo Metropolitan Univ. Shimizu Toshihisa 1 |
|
5 |
Development of SiC Power Devices |
Mitsubishi Electric Corp., Advanced Technology R&D Center *Oomori Tatsuo 1, Imaizumi Masayuki 1 |
|
6 |
High Power GaN FETs on Si Substrates |
Furukawa Electric Co.,Ltd. *Sadahiro Kato, Yoshihiro Satoh, Yuki Niiyama, Hiroshi Kambayashi, Masayuki Iwami, Syusuke Kaya, Nariaki Ikeda and Takehiko Nomura |
|
|
Break 15:40〜15:50 |
|
|
7 |
Epitaxial Growth and Ion Implantation Technologies for SiC Power Devices |
Kyoto Univ. 1 Tsunenobu Kimoto 1, Gan Feng 1, Toru Hiyoshi 1, Koutarou Kawahara 1 |
|
8 |
Process technology for realization of high performance SiC MOS devices |
AIST 1 *Senzaki Junji 1, Shimozato Atsushi 1, Fukuda Kenji 1, Okumura Hajime 1, Arai Kazuo 1 |
|
9 |
Development of Manufacturing Equipment for SiC Power Device |
ULVAC,Inc. 1,ULVAC-RIKO,Inc. 2 *Tadashi Oka 1, Hidekazu Yokoo 1, Yasumasa Suzuki 1, Keiichirou Asakawa 1, Kazuhiro Watanabe 1, Saburou Shimizu 1 |
|
10 |
Recent development in high quality SiC single crystal substrates |
Nippon Steel Corp. Advanced Research Labs. Fujimoto Tatsuo 1 |
Luminescence and stimulated emission in disordered matters |
April 2 9:10〜12:50 |
2a-L- / 0 |
|
1 |
Introductory Talk |
Faculty of Engineering, Gifu University Shimakawa Koichi |
|
2 |
Light Emission from Silicon-Based Materials |
Tokyo Univ. A & T 1 Koshida Nobuyoshi 1 |
|
3 |
Photoluminescence of Amorphous Silicon; Ultra-Wideband Quadrature Frequency Resolved Spectroscopy |
Tokyo Polytechnic Univ. 1 Aoki Takeshi 1 |
|
|
Break 10:40〜10:50 |
|
|
4 |
Stimulated light emission from color centers in ionic oxide crystals |
Kobe Univ. *Takashi Uchino |
|
5 |
Random Laser Emission in Porous Materials infiltrated with Dye Solutions |
Kyoto Univ. 1 *Murai Shunsuke 1 |
|
6 |
Controlling of emission and propagation of light using ultrahigh Q factor glass microspheres |
Shizuoka university Makoto Tomita |