Special Symposium |
「レーザー:生誕から半世紀を経て,新時代を切り拓く究極の光を求めて進化し続けるその魅力とは」 |
Sept. 15 9:00〜17:45 |
15a-NA - 1〜6 |
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1 |
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○Hiroshi Takuma1 |
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2 |
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○Koichi Shimoda1 |
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Break 10:15〜10:30 |
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3 |
Progress in Semiconductor Lasers |
The Univ. of Tokyo1 ○Ryoichi Ito |
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4 |
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The Univ. of Tokushima1 ○Atsushi Takada1 |
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5 |
Optical Frequency Comb: Ultra Precision Meets Ultrafast |
AIST1 ○Feng-Lei Hong1 |
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6 |
Juggling Photons photonic quantum circuits and their prospects |
Hokkaido Univ., Osaka Univ.1 ○Shigeki Takeuchi1 |
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Lunch 12:30〜13:30 |
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15p-NA - 1〜8 |
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1 |
X-ray free electron lasers and future experiments |
RIKEN SPring-8 Center1 ○Yoshihito Tanaka1 |
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2 |
Petawatt Lasers: Towards Extreme Light Intensities |
JAEA1 ○Koichi Yamakawa1 |
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3 |
Attosecond Lasers: New horizon in optical science |
RIKEN1 ○Katsumi Midorikawa1 |
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4 |
THz-wave Sources : the frequency gap between lasers and masers |
RIKEN1 ○Hiromasa Ito1 |
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5 |
Progress of Photonic Crystal Lasers |
Kyoto University1 ○Susumu Noda1 |
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Break 16:00〜16:15 |
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6 |
Laser processing machine is one of the essential tools in manufacturing industries |
Mitsubishi Electric Corporation1 ○Shigenori Yagi1 |
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7 |
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Gigaphoton1, EUVA2 ○Hakaru Mizoguchi1, Junichi Fujimoto1, Akira Sumitani2, Kouji Kakizaki2 |
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8 |
50-th Anniversary of the Laser: Future Prospect |
The Graduate School for the Creation of New Photonics Industries1 ○Yoshiaki Kato1 |
「グリーンプラズマテクノロジー -地球再生を目指した最先端プラズマ科学技術」 |
Sept. 16 9:00〜18:00 |
16a-ZC - 1〜5 |
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1 |
Introductory talk Green Innovation via Plasma Technology |
NEC1 ○Keizo Kinoshita1 |
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2 |
Conclusive Technology for Water Treatment using plasmas |
Saga University1 ○Satoshi Ihara1 |
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3 |
Development of Atmospheric Plasma Jet and its Application to Surface Treatment |
Toyota Technological Institute1 ○Tamio Hara1 |
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4 |
Reduction of friction and adhesion with plasma technology |
Hiroyuki Kousaka1, ○Noritsugu Umehara1 |
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5 |
Application of plasma technology on the fabrication of next generationhuman friendly and high-performance nitride-based light emitters and power devices |
Nagoya University1 ○Hiroshi Amano1, Takayuki Sugiyama1, Yohjiro Kawai1, Yoshio Honda1, Masahito Yamaguchi1 |
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Lunch 12:00〜13:00 |
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16p-ZC - 1〜8 |
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1 |
Atmospheric Environmental Protection Technology by Using High Pressure PLasma |
The University of Tokyo1 ○Tetsuji Oda1 |
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2 |
Global Sustainable Plasma Processing for Hazardous Waste Decomposition |
○Takayuki Watanabe1 |
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3 |
Combustion Enhancement Technology by Using Plasma |
Tohoku University1 ○Kenichi Takita1 |
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Break 15:00〜15:15 |
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4 |
Hydrogen Production with Plasma:Fusion and Biomass Gasification |
Kyoto University1 ○Satoshi Konishi11 |
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5 |
Novel solar cell technologies explored by plasma processing |
AIST1 ○Michio Kondo1 |
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6 |
Plasma-Polymerization Technique of Novel Anion-Conductive Membrane for Fuel Cell |
Shizuoka University1 ○Masao Sudoh1 |
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7 |
Plasma Actuator for Flow Control toward Low Energy and Low Noise Environment - Conceptual Innovation of Transportation Vehicle and Fluid Machinery Aero-Design - |
JAXA1 ○Kozo Fujii1, Kiyoshi Ohyama1 |
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8 |
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○Keiji Nakamura1 |
応用物理学会九州支部・長崎大学合同企画English Session「Prospects of Semiconductor Researches in Asia - VLSI and Solar Cell -」・「MRS会長招待講演」 |
Sept. 15 9:30〜19:20 |
15a-ZC - 1〜4 |
▲ |
1 |
Introduction |
Tokyo Institute of Technology, Japan1 ○Makoto Konagai1 |
▲ |
2 |
Frontier of LSI Research in Japan |
Tohoku University, Japan1 ○Mitsumasa Koyanagi1 |
▲ |
3 |
Innovative Challenge of Samsung for New Semiconductor Age |
Samsung Electronics, Korea1 ○Chayoung Yoo1 |
▲ |
4 |
Prospects of Semiconductor and FPD Industry of Taiwan |
ITRI, Taiwan1 ○Golden Tiao1 |
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Lunch 12:10〜13:10 |
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15p-ZC - 1〜6 |
▲ |
1 |
MRS President's Special Lecture-Materials Optimization for Enhanced Performance of Organic Photovoltaic Devices- |
National Renewable Energy Lab, USA1 ○David S. Ginley1 |
▲ |
2 |
Materials and Process Issues on Silicon Based Thin-Film Tandem Solar Cells in Korea |
Photovoltaic Research Center, Korea Institute of Energy Research, Korea1 ○Jeong Chui Lee1 |
▲ |
3 |
The activities of R&D of Oerlikon Solar |
Oerlikon Solar, Switzerland1 ○Iohaness Meier1 |
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Break 15:20〜15:40 |
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▲ |
4 |
Solar Cells Researches in Taiwan |
National Taiwan University, Taiwan1 ○Chung-Wen Lan1 |
▲ |
5 |
Thin Film Solar Cells in Japan |
Advanced Industrial Science and Technology, Japan1 ○Michio Kondo1 |
▲ |
6 |
Prospects of Asian Solar Cells -Introduction for Symposium on Solar Island Kyushu- |
Photovoltaic Power Generation Technology Research Association, Japan1 ○Yukinori Kuwano1 |
応用物理学会九州支部・プラズマエレクトロニクス分科会合同企画「ソーラーアイランド九州の挑戦」 |
Sept. 15 9:30〜19:20 |
15p-ZC - 7〜12 |
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7 |
Introduction |
○Yukinori Kuwano1 |
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8 |
Challenge to Solar Business by Honda Soltec |
Honda Soltec1 ○Yasuhiro Suzuki1 |
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9 |
Resarch & Development Trend For Microcrystalline Silicon Tandem Solar Cell |
○Han Takatsuka1 |
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10 |
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○Katsumi Kushiya1 |
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11 |
Flexible a-Si/a-SiGe Tandem Solar Cell And Its Application |
○Takashi Yoshida1 |
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12 |
Discussion |
Tokyo Institute of Technology1 ○Makoto Konagai1 |
応用物理学会学会・JST共同特別公開シンポジウム「分子技術,新ステージへの胎動〜科学・技術として今,期待されることは〜」 |
Sept. 16 9:00〜18:20 |
16p-NA - 1〜11 |
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1 |
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○Junichi Sone1 |
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2 |
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○ Shinji Murai1 |
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3 |
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○Shinichi Okoshi1 |
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4 |
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○Hitoshi Tabata1 |
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5 |
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○Kiyoshi Yase1 |
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Break 15:10〜15:30 |
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6 |
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○Shuji Hayase1 |
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7 |
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○Hirokazu Tada1 |
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8 |
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○Kazuhiro Kudo1 |
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9 |
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○Kiyoshi Toko1 |
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10 |
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○Tetsuo Tsutsui1 |
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11 |
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○Kazuhiro Kudo1 |
Symposium |
Progress in Nanotube Nanoelectronics |
Sept. 14 9:00〜18:00 |
14a-B - 1〜7 |
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1 |
Introductory talk: Status and prospect of CNT nanoelectronics |
Nagoya Univ.1 ○Takashi Mizutani1 |
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2 |
Electronic Transport in carbon nanotubes and graphenes |
Tokyo Inst. of Technology1 ○Mikito Koshino1, Tsuneya Ando1 |
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3 |
Status and Prospects of CNT-FETs |
Nagoya Univ.1, Nagoya Univ., VBL2 ○Takashi Mizutani1, Yutaka Ohno1, Shigeru Kishimoto1,2 |
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4 |
Ink-jet Printing of Carbon Nanotube Thin Film Transistors |
Waseda Univ.1 ○Taishi Takenobu1 |
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Break 10:35〜10:50 |
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5 |
Applications to optical short-pulse generation and telecom devices |
Univ. of Tokyo1 ○Shinji Yamashita1 |
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6 |
Device Application of Carbon Nanotube |
Osaka Univ. ISIR1 ○Kazuhiko Matsumoto1 |
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7 |
Present and Future of Graphene-Based Electronic and Photonic Devices |
RIEC Tohoku Univ.1, JST-CREST2 ○Taiichi Otsuji1,2 |
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Lunch 12:20〜13:30 |
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14p-B - 1〜9 |
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1 |
Present State and Outlook of Plasma Processing toward Nanoelectronics Realization |
Department of Electronic Engineering, Tohoku University1 ○Rikizo Hatakeyama1, Toshiro Kaneko1, Toshiaki Kato1, YongFeng Li1 |
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2 |
Application of Aligned Carbon Nanotube Wafers |
AIST1, JST2 ○Takeo Yamada1, Kenji Hata1,2 |
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3 |
Controlled Growth of Single-walled Carbon Nanotubes on Crystal Quartz substrates |
Univ. of Tokyo1 ○Shigeo Maruyama1, Shohei Chiashi1 |
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4 |
Metal/Semiconductor Separation Technology of Carbon Nanotubes- Status and Perspective |
Nanosystem, AIST1, CREST, JST2 ○Hiromichi Kataura1,2, Huaping Liu1,2, Takeshi Tanaka1 |
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Break 15:30〜15:45 |
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5 |
Electronic Properties of Nano-Carbon Hybrid Structures |
Univ. Tsukuba1 ○Susumu Okada1 |
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6 |
Mechanics of Carbon Nanotubes and their Applications |
Osaka Pref. Univ.1 ○Seiji Akita1 |
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7 |
Optical Properties of Carbon Nanotubes for Nano-Carbon Photonics |
Kyoto Univ.1 ○Kazunari Matsuda1 |
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8 |
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Nagoya Univ.1 ○ryo kitaura1, hisanori shinohara1 |
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9 |
Closing Talk: What should be done in the future? |
Tokyo Univ. of Science1, Nagoya Univ.2 ○Yoshikazu Homma1, Takashi Mizutani2 |
Frontiers of Cancer Radiation Therapy using Ionizing Radiation Conducted by Medical Physicists |
Sept. 14 9:00〜16:45 |
14p-NB - 1〜8 |
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1 |
Frontiers of Cancer Radiation Therapy using Ionizing Radiation Conducted by Medical Physicists ? Introduction by the Ionizing Radiation Division ? |
Kyoto Univ.1 ○Ikuo Kanno1 |
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2 |
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○Jun Nakamura1 |
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3 |
Radiation Therapy for Cancer: Current status and Future Direction |
Kyushu Univ.Med.1 ○Yoshiyuki Shioyama1 |
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4 |
What is medical physicist? |
SAGA HIMAT1 ○Masahiro Endo1 |
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Break 14:40〜14:55 |
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5 |
Medical Physicist in Radiotherapy |
NIRS1 ○Shigekazu Fukuda1 |
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6 |
Medical Image Processing for Supporting High Precision Radiation Therapy |
保健学部門医用量子線科学分野1 ○Hidetaka Arimura1 |
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7 |
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National Institute of Radiological Sciences1 ○Motoki Kumagai1 |
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8 |
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○Takeji Sakae1 |
Research on UV-nanoimprint in CREST project |
Sept. 14 9:00〜17:00 |
14p-A - 1〜7 |
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1 |
Intoroductory talk: CREST reserach project |
Univ. of Hyogo1 ○shinji matsui1 |
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2 |
UV nanoimprint using pentafluoropropane (UV-NIL in PFP) |
AIST1, JST-CREST2 ○Hiroshi Hiroshima1,2 |
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3 |
Process simulation for UV NIL |
Osaka Pref. Univ.1, JST-CREST2 ○Yoshihiko Hirai1,2 |
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4 |
Molecularly controlled interface function in UV nanoimprint |
IMRAM, Tohoku Univ.1, JST-CREST2 ○Masaru Nakagawa1,2 |
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Break 14:55〜15:15 |
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5 |
Evaluation of fluorinated self-assembled monolayer |
Graduate School of Science, Univ. of Hyogo1, JST-CREST2, JSPS3 ○Makoto Okada1,2,3, Shinji Matsui1 |
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6 |
Mold Fabrication for UV nanoimprint. |
HOYA1 ○Osamu Nagarekawa1 |
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7 |
UV Nanoimprint Materials |
Daicel Chemical Industries1, Univ. of Hyogo2 ○Shuso Iyoshi1, Hiroto Miyake1, Takao Yukawa1, Makoto Okada2, Shinji Matsui2 |
Future Trend of Functional Organic Materials and Devices |
Sept. 14 10:00〜17:00 |
14p-ZF - 1〜9 |
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1 |
Introductory Talk |
Kyushu Institute of Technology1 ○Shoji Furukawa1 |
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2 |
Application of TiO2/SiO2 multilayer flakes with structural colors |
Kyushu Inst. Tech.1 ○Takashi Yasuda1 |
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3 |
Nonradiative Investigation of Photodecomposition of Poly(di-n-hexylsilane) Thin Films Using Piezoelectric Photothermal Spectroscopy |
Fac. of Engi., Univ. of Miyazaki1, CRC, Univ. of Miyazaki2, Kyushu Institute of Tech.3 ○Atsuhiko Fukuyama1, Kentaro Sakai2, Tetsuo Ikari1, Shoji Furukawa3 |
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4 |
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ICME, Kyushu Univ.1, ASEM, Kyushu Univ.2 ○Katsuhiko Fujita1, Koji Sagane2, Takeshi Noda2 |
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5 |
A New Attempt of Heavy-Metal Recycle by Utilizing Organic Hydrogel |
Kyushu Univ.1, Kinki Univ.2 ○Kazuhiro Hara1, Tetsuaki Nishida2 |
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6 |
Chirality Control of Semiconducting Single Walled Carbon Nanotube by Free Electron Laser Irradiation during Growth |
Nihon Univ.1, Tokyo Univ. of Science2 Keijiro Sakai1, Satoshi Doi1, Hirofumi Yajima2, Nobuyuki Iwata1, ○Hiroshi Yamamoto1 |
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Break 15:15〜15:30 |
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7 |
Evaluation and Device Applications of Organic Thin Films Utilizing Surface Plasmon Excitation |
Niigata Univ.1 ○Keizo Kato1 |
|
8 |
Current Technology and Future Prospect of Organic thin Film Transistors |
Chiba Univ.1 ○Kazuhiro Kudo1 |
|
9 |
Analysis of Carrier Transits in Organic Devices by Optical Second Harmonic Generation |
Tokyo Tech1 ○Mitsumasa Iwamoto1, Takaaki Manaka1, Dai Taguchi1 |
Frontier in Nanobiodevices |
Sept. 14 9:30〜17:25 |
14p-M - 1〜10 |
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1 |
Introductory Talk |
ISIR, Osaka Univ.1 ○Tomoji Kawai1 |
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2 |
Biomolecular Handling by MEMS Tweezers for In-situ Chemical Reaction Measurement and Assembly of Nano Conveyor |
Tokyo Univ. IIS1 ○Hiroyuki Fujita1 |
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3 |
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Osaka Univ,1 ○Eiichi Tamiya1 |
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4 |
DNA Detection System for Viruses and Bacteria Using Electrochemical DNA Chip |
Toshiba R&D Center1 ○Nobuhiro Gemma1 |
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5 |
Development of Highly Sensitive DNA Chip “3D-Gene” |
Toray Industries, Inc.1 ○Fumio Nakamura1 |
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Break 15:05〜15:20 |
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6 |
Future Medicine developed by Nanobiodevice |
Nagoya Univ.1, FIRST Res. C. Nanobio.2, AIST3 ○Yoshinobu Baba1,2,3 |
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7 |
Development and Application of Electrophysiological Biosensor |
Panasonic1, PED2 ○Ken Shimono1, Hiroaki Oka2 |
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8 |
Development of Bio/Nano hybrid platform technology for measuring cell functions and regenerative medicine |
Kyoto Univ.1 ○Hidetoshi Kotera1 |
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9 |
Regenerative medicine by nanotechnology-based cell sheet engineering |
Tokyo Women's Med. Univ.1 ○Masayuki Yamato1 |
|
10 |
Trends of the Standardization for Bio-molecule Detection and Measurement |
Japan Microarray Consortium1 ○Hiroki Nakae1, Masahi Ishii1, Junji Yoshii1 |
Progress in Characterization of Materials using Quantum-Beam Technologies |
Sept. 14 9:30〜17:30 |
14p-H - 1〜11 |
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1 |
Introduction to the Symposium on Progress in Characterization of Materials using Quantum-Beam Technologies. |
Kyushu Synchro.1 ○Yasuharu Hirai1 |
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2 |
Recent Progress in Synchrotron Radiation Sources and Instrumentations |
SAGA-LS1 ○Hiromichi Kamitsubo1 |
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3 |
Observations of light-elements material by phase-contrast X-ray imaging |
Hitachi Advanced Research Laboratory1 ○Akio Yoneyama1 |
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4 |
Characterization of New Functional Materials using SR X-ray Diffraction |
SPring8/JASRI1 ○Shigeru Kimura1 |
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5 |
Advances in Neutron Beam Technology |
JAEA1 ○Kazuhisa Kakurai1 |
|
6 |
Introduction of the Imaging Utilization Used Neutron Radiography |
Japan Atomic Energy Agency1 ○Hiroshi Iikura1 |
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Break 15:15〜15:30 |
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7 |
The current status of iMATERIA and development for new functional materials |
Ibaraki Univ.1, KEK2, KUR3, Tohoku Univ.4, NIMS5, Ibaraki Pref.6 ○Toru Ishigaki1, Akinori Hoshikawa1, kenji Iwase1, Sulistyanintyas Dyah1, Hidetoshi Oguro1, Masao Yonemura2, Ryoko Tomiyasu2, Takashi Kamiyama2, Kazuhiro Mori3, Ryoji Kiyanagi4, Takashi Mochiku5, Yukio Morii6, Makoto Hayashi6 |
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8 |
Advanced Electron Microscopy for Materials Research |
Kyushu Univ.1 ○Syo Matsumura1 |
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9 |
TEM Tomography Observations of Metallic Materials |
Faculty of Engineering Sciences, Kyushu Univ.1, HVEM Laboratory, Kyushu Univ.2, Mel-Build3 ○Satoshi Hata1, Masatoshi Mitsuhara1, Ken-ichi Ikeda1, Hideharu Nakashima1, Syo Matsumura2, Hiroya Miyazaki3 |
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10 |
A Nanoprobe Convergent Beam Electron Diffraction Study of Strain Distribution in the Semiconductor Devices |
Fujitsu Labs.1 ○Takeshi Soeda1 |
|
11 |
Closing talk: The importance of quantum beams for advances in materials science |
QuBS, JAEA1 ○Jun'ichiro Mizuki1 |
Current Status for Diamond Electron Devices -From crystal growth to device applications - |
Sept. 14 13:15〜17:20 |
14p-ZJ - 1〜9 |
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1 |
Introduction |
NIMS1 ○Yasuo Koide1 |
|
2 |
Prospect of Inch Sized Diamond Wafer |
EDP Corporation1 ○Naoji Fujimori1 |
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3 |
Fabrication of large size heteroepitaxial diamond substrate and its application. |
AGD MATERIAL1, Aoyama Gakuin Univ.2, Namiki Precision Jewel3, TOMEI DIAMOND4, SEKI TECHNOTRON5 ○Atsuhito Sawabe1,2, Hideyuki Kodama1,2, Satoshi Abe2, Shun Washiyama2, Toshiro Kotaki3, Kouki Oyama3, Hiromichi Yoshikawa4, Noritaka Ishigaki5, Mutoh Katsuhiko5 |
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4 |
Low-Loss Power Semiconductor Device by Diamond |
Waseda Univ.1 ○Hiroshi Kawarada1 |
|
5 |
Research overview of diamond wafer and power switching device |
AIST1 ○Shinichi Shikata1, Hitoshi Umezawa1, Hideaki Yamada1, Nobuteru Tsubouchi1, Yoshiaki Mokuno1, Akiyoshi Chayahara1 |
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Break 15:25〜15:40 |
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6 |
Novel diamond diode |
AIST1, Nissan Motor2, Univ. of Tsukuba3 ○Toshiharu Makino1, Satoshi Tanimoto2, Hideyo Okushi1, Satoshi Yamasaki1,3 |
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7 |
Diamond pn junction cold cathode |
NIMS1 ○Satoshi Koizumi1 |
|
8 |
Recent Progress of Diamond Electronic Device Technologies: Towards RF Power Amplifiers |
NTT Basic Research Labs1 ○Makoto Kasu1 |
|
9 |
Summary |
AIST, ETRI1 ○Satoshi Yamasaki1 |
Integration of diverse functionalities: The Road to The Destructive Innovation |
Sept. 14 9:00〜17:15 |
14p-ZE - 1〜7 |
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1 |
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○Kazuya Masu1 |
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2 |
RF-MEMS and Integrated RF Circuits Technologies |
Ritsumeikan Univ.1 ○Kenichiro Suzuki1 |
|
3 |
MEMS/CMOS Design Techniques for Integration of diverse functionalities |
Kagawa Univ.1 ○Hidekuni Takao1 |
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Break 15:00〜15:15 |
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4 |
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NTT Electronics1 ○Satoshi Shigematsu1 |
|
5 |
Expectations for MEMS integration in RF Front-end |
Kyushu Univ.1 ○Haruichi Kanaya1, Ramesh Pokharel1, Keiji Yoshida1 |
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6 |
Fusion of Sensor and LSI |
Toyohashi Univ.1, JST-CREST2 ○Kazuaki Sawada1,2, Makoto Ishida1,2 |
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7 |
|
○Kazuya Masu |
Plasma Electronics Award Lecture |
Sept. 14 9:00〜18:00 |
14p-ZC - 1〜1 |
|
1 |
Challenge for Super-low Damage Plasma Processes |
Tohoku Univ.1 ○Seiji Samukawa1 |
Plasma Electronics Symposium :Advanced Processing by Control of Reactive Plasmas-Memorial Symposium in Honor of Prof. Ryohei Itatani- |
Sept. 14 9:00〜18:00 |
14p-ZC - 2〜8 |
|
2 |
Birth and Growth of Reactive Plasma Research with Professor Ryohei Itatatani |
Ehime Univ.1 ○Kunihide Tachibana1 |
|
3 |
Development of Plasma Sources for Advanced Plasma Processings |
Nagasaki Univ.1 ○Hiroshi Fujiyama1 |
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4 |
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Kyushu Univ.1 ○Masaharu Shiratani1 |
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Break 15:45〜16:00 |
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5 |
Control of Surface Reactions for Accurate Plasma Etching |
Hitachi High-Tech.1 ○Masaru Izawa1 |
|
6 |
Nanotechnology by Reactive Plasma |
Kochi Univ. Technol.1 ○Akimitsu Hatta1 |
|
7 |
High Density Plasma Source and Its Application to Processing Tools |
Panasonic Corp.1 ○Tomohiro Okumura1 |
|
8 |
Biomedical Application by Plasma Chemistry |
Matsuyama Univ.1 ○Masayuki Kuzuya1 |
Physics and Technologies Toward Next-generation Innovative Devices |
Sept. 15 10:00〜17:30 |
15a-ZQ - 1〜4 |
|
1 |
Basic research opens up device innovation (45min) |
JST-PRESTO1 ○Katsuaki Sato1 |
|
2 |
Theory of spin and heat transport in solids: towards device applications |
Tokyo Tech1, PRESTO, JST2 ○Shuichi Murakami1,2 |
|
3 |
High-Performance Organic Field-Effect Transistors Using Intrachain Carrier Transport along Uniaxially Aligned π-Conjugated Polymers |
NIMS1, JST-PRESTO2 ○Takeshi Yasuda1,2 |
|
4 |
Research on Stochastic Resonance Nanodevices and Their Integration for Novel Noise-robust Information Processing
|
IST, Hokkaido Univ.1, RCIQE, Hokkaido Univ.2, PRESTO, JST3 ○Seiya Kasai1,2,3 |
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Lunch 12:00〜13:00 |
|
15p-ZQ - 1〜10 |
|
1 |
Spin current and spintronics |
IMR, Tohoku Univ.1 ○Koki Takanashi1 |
|
2 |
Control of Spin Polarization for Tunable Spin Sources |
Tokyo Tech.1, PRESTO-JST2 ○Tomoyasu Taniyama1,2 |
|
3 |
Search of halfmetals at RT for spintronics devices |
NIMS1, Tsukuba Univ.2 ○Yukiko Takahashi1, A Rajanikanth1, B Varaprasad2, Kazuhiro Hono1,2 |
|
4 |
Semiconductor nanowires for the realization of vertical three-dimensional |
NIMS1, JST-PRESTO2 ○Naoki Fukata1,2 |
|
5 |
Design and Physical Properties Forecast of Nano-Carbon Electronic Devices Based on Computational Methods |
NIMS/MANA1, JST/PRESTO2 ○Katsunori Wakabayashi1,2 |
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Break 15:25〜15:40 |
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6 |
Insulator materials for spintronics and spin-light interaction |
IMR,Tohoku Univ.1 ○Eiji Saitoh1 |
|
7 |
Ultrafast manipulation and measurement of spin dynamics by femtosecond laser pulse |
Nihon Univ.1, PREST JST2 ○Arata Tsukamoto1,2 |
|
8 |
Control of a Spin Current via Molecules |
Osaka Univ.1, JST-PRESTO2 ○Masashi Shiraishi1,2 |
|
9 |
Study on novel magnetic properties of aggregate nanomagnets |
Keio Univ.1, PRESTO, JST2 ○Akinobu Yamaguchi1,2 |
|
10 |
Closing remarks |
Keio Univ.1 ○Yuji Awano1 |
Photonic ICT and applications |
Sept. 15 9:30〜18:15 |
15p-G - 1〜6 |
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1 |
Cloud and Data Center |
NICT1 ○Tatsuya Yamazaki1, Eiji Kawai1, Shinji Shimojo1 |
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2 |
Evolving Network Technologies in Cloud Era |
Fujitsu Labs.1 ○Tomohiro Ishihara1 |
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3 |
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○Akihiro Nakao1 |
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Break 14:45〜15:00 |
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4 |
Control Plane Technologies for a Photonic Network |
NEC Corp.1 ○Soichiro Araki1 |
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5 |
Optical Interconnect Technology |
IBM Research - Tokyo1, IBM TJ Watson Research Center2 ○Yoichi Taira1, Hidetoshi Humata1, Fumiaki Yamada1, Jean-Benoit Heroux1, Shigeru Nakagawa1, Atsuya Okazaki1, Yasunao Katayama1, Jeffrey Kash2, Marc Taubenblatt2 |
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6 |
Photonic Integrated Devices for Photonic ICT |
NTT Photonics Laboratories1 ○Shinji Matsuo1 |
Forefront of advanced SRAM research for the nanoelectronics era |
Sept. 15 9:00〜16:45 |
15p-ZE - 1〜9 |
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1 |
Introductory Talk: Technology Trend of SRAM |
IIS, Univ. of Tokyo1 ○Toshiro Hiramoto1 |
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2 |
NEDO's strategy for research and development of static random access memory |
NEDO1 ○Atsushi Ando1, Tomohiro Yamazaki1, Junichi Manda1, Shigeru Kohmoto1, Takayuki Shimazu1 |
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3 |
Robust Design of Embedded SRAM on Deep-Submicron Low-Power SoC |
Renesas Electronics1 ○Koji Nii1, Makoto Yabuuchi1, Yasumasa Tsukamoto1 |
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4 |
Suppression of NBTI-Induced VMIN Shifts for 40nm Node SRAM Cell |
Toshiba Corp.1 ○Yosuke Kitamura1, Tomoya Sanuki1, Koji Matsuo1, Takashi Shimizu1, Atsushi Ohta1, Yusuke Arayashiki1, Hironobu Fukui1, Takaaki Hoshino1, Yusuke Ueki1, Akihiro Yasumoto1, Hisao Yoshimura1, Tetsuya Asami1, Hisato Oyamatsu1 |
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5 |
Simultaneous Self-Repair of SRAM Unbalance |
IIS, Univ. of Tokyo1, STARC2 ○Toshiro Hiramoto1, Makoto Suzuki1, Takuya Saraya1, Shinji Miyano2, Takayasu Sakurai1 |
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Break 14:50〜15:05 |
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6 |
7T/14T Dependable SRAM and Its Application to Microprocessor Cache |
Kobe Univ.1 ○Hiroshi Kawaguchi1 |
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7 |
Independent-Double-Gate FinFET SRAM Technology |
Nanoelectronics. Res. Inst. AIST1 ○Kazuhiko Endo1, Shin-ichi O'uchi1, Yongxun Liu1, Takashi Matsukawa1, Kunihiro Sakamoto1, Meishoku Masahara1 |
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8 |
Ultra-low Voltage Operation Charge-Trap SRAM and Ferroelectric SRAM |
大学院工学系研究科電気系工学専攻1 ○Ken Takeuchi1, Kousuke Miyaji1, Shuhei Tanakamaru1, Kentaro Honda1, Shinji Miyano2 |
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9 |
Nonvolatile/variability-tolerant SRAM technologies using nonvolatile memory elements |
Imaging Sci. Eng. Lab.,Tokyo Inst. Tech.1, Dept. Info. Process.,Tokyo Inst. Tech.2, CREST, JST3 ○Satoshi Sugahara1,3, Yusuke Shuto1,3, Shuu'ichirou Yamamoto2.3 |
Forefront of optical elements with subwavelength structured surfaces |
Sept. 15 13:00〜17:00 |
15p-S - 1〜9 |
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1 |
Forefront of optical elements with subwavelength structured surfaces (Introductory Talk) (10 min.) |
Osaka Prefecture Univ.1 ○Hisao Kikuta1 |
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2 |
Optical Device Fabrication using Imprint Method |
RIES, Hokkaido Univ.1 ○Junji Nishii1 |
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3 |
Application of Optical Elements with Subwavelength Structures to Sensors |
Canon1 ○Taisuke Isano1, Yasushi Kaneda1 |
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4 |
Low-reflective Wire-grid Polarizers in Visible Region |
Sony Chemical1, Kyoto Univ.2 ○Akio Takada1, Takatoshi Yamada1, Naoki Hanashima1, Kouji Sasaki1, Eiji Takahashi1, Motofumi Suzuki2 |
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5 |
Molded glass lens with anti-reflective structure |
Panasonic Corp.1 ○Yasuhiro Tanaka1 |
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Break 15:10〜15:25 |
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6 |
Nanoimprinting Using Anodic Porous Alumina and Its Application for Preparation of Antireflection Structures |
Tokyo Metropolitan Univ.1, KAST2 ○Hideki Masuda1,2, Takashi Yanagishita1,2 |
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7 |
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○Hiroshi Goto1 |
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8 |
Process simulation in nanoimprint technology |
Osaka Pref. Univ.1 ○Yoshihiko Hirai1 |
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9 |
Closing Remarks(5分) |
Olympus1 ○Hirofumi Tsuchida1 |
Present and Future of Bio-Medical Imaging Using Synchrotron Radiation jointly hosted by Kyushu Chapter of JSAP, Division of Ionizing Radiation and Asian Meeting on Synchrotron Bio-Medical Imaging |
Sept. 15 9:00〜17:20 |
15p-J - 1〜11 |
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1 |
Introductory talk: Biomedical Imaging using SR |
Kyushu Inst. Tech.1 ○Yosinori Chikaura1 |
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2 |
The Compact Light Source: A miniature synchrotron producing x-rays via inverse Compton scattering |
Lyncean Technologies Inc.1 ○Ronald Ruth1, Jeffrey Rifkin1, Rod Loewen1 |
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3 |
Current Status and Trend of 2D X-ray detectors for Synchrotron Radiation Application |
JASRI/SPring-81 ○Hidenori Toyokawa1 |
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4 |
Interpretation of x-ray optics for observation viewed from diffraction theory |
Kyushu Inst. Tech.1, Tokyo Sci. Univ.2 ○Yoshifumi Suzuki1, Yoshinori Chikaura1, Masami Ando2 |
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5 |
World first CT technique due to refraction |
Yamagata Iniv.1, Nagoya Medical Center2, Tokyo Univ. Sci.3 ○Tetsuya Yuasa1, Naoki Sunaguchi1, Qingkai Huo1,2, Shu Ichirhara3, Masami Andou2 |
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6 |
Development of diagnosis using SR excited fluorescent x-ray source |
Kyushu Univ.1, Kyushu Univ.2, KEK3, RIST TUS4 ○Kenji Tokumori1, Fukai Toyofuku2, Kazuyuki Hyodo3, Masami Ando4 |
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Break 15:05〜15:20 |
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7 |
Searching for tumor infiltration structures using combined diffraction-based SR imaging technique and nanomedicine |
Catholic Univ. of Daegu Biomed Eng1, Catholic Univ. of Daegu Neurosurgery2, Univ. of Tsukuba Neurosurgery3, KEK PF4, TUS RIST5 ○Jong-Ki Kim1, Gi-Whan Choi2, Hideeo Tsurushima3, Kazuyuki Hyodo4, Akira Matsumura3, Masami Ando5 |
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8 |
Investigating the hepatic lobular 3D structure using synchrotron hard x-ray phase contrast ?CT |
IHEP1, Capital Medical University2, APS3, ESRF4, TUS5 ○Gang Li1, Xin Yian Zhao2, Xiang Hui Xiao3, Paul Tafforeau4, Bao En Wang2, Masami Ando5 |
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9 |
Breast Cancer Imaging with refraction based Xray |
Nagoya Medical Center1, Tokyo University of Science2, Yamagata University3 ○Shu Ichihara1, Masami Ando2, Tetsuya Yuasa3 |
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10 |
Frontier of articular cartilage and therapy |
Okayama Univ. Orthop. Surg.1, Ibaraki Pref. Univ. of Health Science2, KEK3, RIST TUS4 ○Toshiyuki Kunisada1, Daisuke Shimao2, Hiroshi Sugiyama3, Ken Takeda1, Toshifumi Ozaki1, Masami Ando4 |
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11 |
Perspective: Bio-Medical Imaging Using SR |
RIST TUS1 ○Masami Ando1 |
From Control of Physical Properties of Semiconductors with Intentional Doping of Functional Impurities to Device Applications with Designed New Active Functions for Future |
Sept. 15 9:00〜17:40 |
15p-NB - 1〜9 |
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1 |
Introductory talk: Control of physical properties and creation of functionalities by impurity doping |
Osaka Univ.1 ○Yasufumi Fujiwara1 |
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2 |
Materials design by doping towards a new generation of functional-oriented semiconductors |
Kochi Univ. Tech. Res. Inst1 ○Tetsuya Yamamoto1, Yasushi Sato1, Hisao Makino1, Naoki Yamamoto1 |
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3 |
Evaluation of grain and interface properties of Cu(InGa)Se22 thin films solar cells |
Tokyo Tech1, Tokyo Tech PVREC2 ○Akira Yamada1,2, Satoru Oonishi1, Yasuyoshi Kurokawa1, Makoto Konagai1,2 |
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4 |
Light-emitting devices based on rare-earth doped semiconductors |
Osaka Univ.1 ○Yasufumi Fujiwara1, Atsushi Nishikawa1, Yoshikazu Terai1 |
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Break 14:55〜15:10 |
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5 |
A flexible film-type Hg-free deep-ultraviolet light source by Plasma Tube Array |
Kobe University1, Shinoda Plasma Co., Ltd.2, YUMEX INC.3, Hyogo Prefectural Institute of Technology4 ○Takashi Kita1, Bingang Guo2, Kenji Awamoto2, Tsutae Shinoda2, Yoshitaka Chigi3, Tesurou Nishimoto3, Hiroyuki Tanaka3, Mikihiro Kobayashi3, Tsuguo Ishihara4, Hirokazu Izumi4 |
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6 |
Nano-structures Doped with Near-Infrared Luminescence Centers |
Kobe Univ.1, NIMS2 ○Minoru Fujii1, Hong-Tao Sun2 |
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7 |
Development of characteristics of single NV center in diamond |
Tsukuba Univ1, PRESTO2 ○Norikazu Mizuochi1,2 |
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8 |
Exciton physics in III-V semiconductors grown by an atomically controlled doping technique |
Kobe Univ.1 ○Yukihiro Harada1, Takashi kita1 |
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9 |
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○Takashi Kita1 |
Area activities for the human resource development for manufacturing and the education of science |
Sept. 15 11:00〜17:15 |
15p-ZH - 1〜8 |
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1 |
Introductory talk: Area activities for the human resource development for manufacturing and the education of science. |
Tokyo Univ. of Science1, Teikyo Univ.2 ○Shizutoshi Ando1, Toshiharu Mitsui2 |
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2 |
A propulsion of science education by JELLY FISH PROJECT |
Nagasaki Univ.1 ○Kunihiro Hisatsune1, Tateo Hashimoto1 |
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3 |
Fukuokasinotorikumitosite 〜tiikitokagakukannnorennkei
「wakuwakukagakuka-nibaru」〜 |
Fukuokasiritusyounennkagakubunnkakaikann1 ○Masafumi Miyamoto1 |
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4 |
The SSH Project of CHIENKAN High School |
Chienkan H.S.1 ○Nobuyuki Hirakata1, Kazuhisa Sonda1, Seigo Nakashima1 |
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5 |
Fukuoka Prefectural High School Core SSH Project
-To make physical science clubs active and to contribute to local communities through experience classes of science experiments |
Fukuoka Prefectural High School1 ○Tetsuhide Inoue1 |
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Break 15:35〜15:45 |
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6 |
SPP Program and Educational Support for Science and Creative Education utilizing characteristics of College of Tech. |
Kurume National College of Tech.1 ○Naohiro Koshiji1 |
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7 |
Program of Engineering Education mainly using Project-Based Learning (PBL) |
Kyushu Institute of Technology1 ○Motoi Nakao1 |
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8 |
Workshop for Refreshing Science Classes Organized and Held as Educational Public Utilities by JSAP Kyushu Branch (Fukuoka) |
Fukuoka Univ.1 ○Nobuyasu Hiramatsu1 |
Review of fiber-lasers and its applications that are exploring a new field of a manufacturing industry |
Sept. 16 9:00〜16:30 |
16p-M - 1〜6 |
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1 |
Introductory Talk:
Positioning of Fiber Lasers in Industrial Laser Markets |
Paradigm Laser Research1 ○Kunihiko Washio1 |
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2 |
Laser processing applications in automotive industry |
NISSAN MOTOR CO., LTD.1 ○Kiyokazu Mori1 |
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3 |
Laser processing of the semiconductor wafers |
DISCO1 ○Satoshi Kobayashi1 |
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Break 14:45〜15:00 |
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4 |
Coherent UV source using fiber laser, and the application |
Megaopto1, AMiT (Toshiba)2, NuFlare3 ○Yoshiharu Urata1, Tatsuya Shinozaki1, Yoshio Wada1, Satoshi Wada1, Shinichi Imai2, Osamu Iwase3 |
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5 |
High power single mode fiber laser and its applications |
Furukawa Electric1 ○Akira Fujisaki1 |
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6 |
Industrial applications with high power femto second fiber laser |
IMRA AMERICA, Inc.1 ○Ryuichiro Sasaki1 |
シリコンテクノロジーの未来像を徹底的に考える-Never Ending Silicon Technology- |
Sept. 16 9:00〜17:55 |
16p-ZE - 1〜9 |
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1 |
Introductory Talk |
Univ. Tokyo1 ○Shinichi Takagi1 |
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2 |
Technology Evolution for Silicon Nano-Electronics: Post-Scaling Technology |
Nagoya Univ.1 ○Shigeaki Zaima1 |
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3 |
Future Prospect of ULSI Technology from the Viewpoint of IT-NW Systems |
NEC Corp.1 ○Yasunori Mochizuki1 |
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4 |
Future prospects for ULSI technology in the post-scaling era |
Corporate R & D Center, Toshiba Corp.1 ○Akira Nishiyama1 |
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Break 15:10〜15:25 |
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5 |
Challenges on Interface Control for Nanostructures |
Nagoya Univ.1 ○Seiichi Miyazaki1 |
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6 |
Views for Construction of Nano Interface Science |
Chiba Univ.1 ○Takashi Nakayama1 |
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7 |
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Univ. of Tsukuba1 ○Kenji Shiraishi1 |
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8 |
New Paradigm with Silicon Technology by Structural Fusion and Function Fusion |
学際科学国際高等研究センター1 ○Tetsuo Endoh1 |
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9 |
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○Naoki Yokoyama1 |
Current Status of Energy Conversion Devices (Organized by "Future-oriented Sustainable Society Technology") |
Sept. 16 9:30〜17:30 |
16p-NE - 1〜9 |
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1 |
Introductory Talk : Current Status of Energy Conversion Devices |
CIR, Tohoku Univ.1, Environmental Studies, Tohoku Univ.2 ○Katsushi Fujii1, Takashi Itoh1, Kazuyuki Tohji2 |
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2 |
Development of novel Si-based crystals for solar cells |
IMR, Tohoku Univ.1, Tsukuba Univ.2 ○Noritaka Usami1, Takashi Suemasu2 |
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3 |
Electrode Reactions in Solid Oxide Fuel Cells (SOFCs) |
Tohoku Univ.1, Kyoto Univ.2, JASRI3 ○Koji Amezawa1, Toshiaki Ina2, Yuki Orikasa2, Atsushi Unemoto1, Fumitada Iguchi1, Hajime Tanida2, Tomoya Uruga3, Hiroo Yugami1, Tatsuya Kawada1, Yoshiharu Uchimoto2 |
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4 |
Analysis of the Electron Donating Reaction Which Bases Photosynthetic Energy Conversion |
Kyoto Univ.1 ○Mamoru Mimuro1 |
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Break 14:45〜15:00 |
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5 |
Potential of III-V nitride films for application to solar cell |
NIMS1 ○Masatomo Sumiya1 |
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6 |
Spectoelectrochemistry of Electrochemical Reaction in Lithim Secondary Batteries |
Tohoku Univ.1 ○Takashi Itoh1 |
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7 |
Photo-electochemical water splitting using p-type semiconductor electrodes |
The Univ. of Tokyo1 ○Tsutomu Minegishi1, Kazunari Domen1 |
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8 |
Organic Phorovoltaics |
Mitsubishi Chem Group Sci & Tech Res Ctr1 ○Shinji Aramaki1 |
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9 |
The future of energy conversion devices |
Tohoku Univ.1 ○Kazuyuki Tohji1, Ryuzo Furukawa1, Hydeyuki Takahashi1, Yoshinori Sato1 |
Future perspective of spintronics |
Sept. 16 9:00〜17:50 |
16p-A - 1〜8 |
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1 |
Introductory talk |
The Univ. of Tokyo1, Tohoku Univ.2 ○Jun Okabayashi1, Masaki Mizuguchi2 |
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2 |
Spintronics: More and Beyond |
CSIS, Tohoku Univ.1, RIEC, Tohoku Univ.2 ○Hideo Ohno1,2 |
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3 |
Magnetoelectric cross-correlated functions in multiferroics |
CMRG,CERG, RIKEN1 ○Yasujiro Taguchi1 |
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4 |
Organic Spintronics |
Osaka Univ.1, JST-PRESTO2 ○Masashi Shiraishi1,2 |
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Break 15:15〜15:30 |
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5 |
Spin-photonics |
ISEL, Tokyo Tech.1 ○Hiro Munekata1 |
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6 |
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○Hitoshi Tabata1 |
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7 |
High-frequency spintronics |
AIST1, Osaka Univ.2, Canon Anelva Corp.3 ○Hitoshi Kubota1, Satoshi Yakata1, Akio Fukushima1, Kay Yakushiji1, Shinji Yuasa1, Koji Ando1, Shota Ishibashi2, Hiroyuki Tomita2, Takayuki Nozaki2, Yoshishige Suzuki2, Hiroki Maehara3, Kazumasa Nishimura3, Yoshinori Nagamine3, Koji Tsunekawa3, D.D. Djayaprawira3 |
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8 |
Current statuses and future prospects of quantum information processing |
Keio Univ.1 ○Kohei Itoh1 |
Functional Multi-Layer Wafer Technology for Green Electronics |
Sept. 16 9:00〜17:20 |
16p-ZW - 1〜8 |
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1 |
Introductory Talk (10min) |
AIST, ETRI1 ○Satoshi Yamasaki1 |
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2 |
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○Hiromichi Ohashi1 |
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3 |
Development of CZ-Si Crystal Substrates for Power Devices |
Covalent Silicon Corp.1 ○Kazuhiko Kashima1 |
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4 |
Heteroepitaxial growth of GaN on Si |
Nagoya Inst. Tech.1 ○Takashi Egawa1 |
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Break 15:20〜15:40 |
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5 |
Applications of a Silicon Wafer Direct Bonding For Power Devices |
Kyushu Inst. Tech.1 ○Satoshi Matsumoto1 |
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6 |
Silicon Carbide Epitaxial Growth Process |
AIST1 ○Shin-ichi Nishizawa1 |
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7 |
Growth Technology of Highly-oriented Diamond on Silicon |
Kobe Steel1 ○Yoshihiro Yokota1, Takeshi Tachibana1 |
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8 |
Closing Remarks |
Osaka Univ.1 ○Heiji Watanabe1 |
Characterization and Device Applications of Wide bandgap Nitrides AlGaN |
Sept. 16 9:00〜17:30 |
16p-B - 1〜8 |
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1 |
Introductory Talk -Epitaxial growth of AlGaN- |
Mie Univ.1 ○Hideto Miyake1 |
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2 |
Behavior of Threading Dislocations and Growth Process of AlGaN Layers
on an AlN/sapphire Template
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Kyushu Univ.1, Mie Univ.2 ○Noriyuki Kuwano1, Tomoaki Fujita1, Hideto Miyake2, Kazumasa Hiramatsu2 |
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3 |
Excitonic optical properties of AlGaN ternary alloy epitaxial layers |
Yamaguchi Univ.1 ○Yoichi Yamada1 |
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4 |
Characterization of Defects in AlGaN by Means of Positron Annihilation |
Uni. of Tsukuba1, Mie Univ.2, NRI-AIST3 ○Akira Uedono1, Hideto Miyake2, Kazumasa Hiramatsu2, Shoji Ishibashi3 |
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5 |
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Hokkaido Univ, JST-CREST1 ○Tamotsu Hashizume1 |
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Break 15:40〜16:00 |
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6 |
Development of Deep Ultraviolet Light Source Pumped by Electron Beam |
Hamamatsu Photonics K.K.1, Mie Univ.2 ○Fumitsugu Fukuyo1, Tomoyuki Okada1, Hidetsugu Takaoka1, Harumasa Yoshida1, Yuki Shimahara2, Hiroyuki Taketomi2, Hideto Miyake2, Kazumasa Hiramatsu2 |
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7 |
Progress of 220-280 nm AlGaN-based deep-UV LEDs |
RIKEN1 ○Hideki Hirayama1 |
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8 |
Discussion on the physics of AlGaN-based light emitting devices |
Dept. Elec., Nagoya Univ.1, ARC2 ○Hiroshi Amano1,2 |
New developments of Functional-oxide Nano-electronics |
Sept. 16 9:00〜18:00 |
16p-E - 1〜8 |
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1 |
New developments of Functional-oxide Nano-electronics; Introductory talk |
AIST-NIRC1 ○Hiro AKINAGA1 |
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2 |
Fabrication and Performance Evaluation of Flexible and Transparent ReRAM |
Tottori Univ.1, TEDREC2, Oike & Co., Ltd.3 ○Kentaro Kinoshita1,2, Takumi Okutani1, Hayato Tanaka1, Toshio Hinoki1,3, Koutoku Ohmi1,2, Satoru Kishida1,2 |
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3 |
Correlation between Oxygen Composition and Electrical Properties in NiO Thin Films for Resistive Random Access Memory |
Kyoto Univ.1, Kyoto Univ. PESEC2 ○Yusuke Nishi1, Tatsuya Iwata1, Tsunenobu Kimoto1,2 |
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4 |
Microstructure, magnetic and transport properties of a spin-filtering device with spinel ferrites |
NIMS1 ○Yukiko Takahashi1, Shinya Kasai1, Takao Furubayashi1, Seiji Mitani1, Koichiro Inomata1, Kazuhiro Hono1 |
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Break 15:40〜15:50 |
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5 |
Spintronics using Mott insulators |
IMR, Tohoku Univ.1, さきがけ2 ○Eiji Saitoh1,2,3 |
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6 |
Non-volatile Memory Effects in a Single Oxide Nanowire |
ISIR Osaka Univ.1, JST-PRESTO2 ○Takeshi Yanagida1,2, Kazuki Nagashima1, Keisuke Oka1, Masaki Kanai1, Tomoji Kawai1 |
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7 |
Integration of metal oxide switching device for real Nonvolatile memory |
SHARP CORPORATION1 ○NOBUYOSHI AWAYA1 |
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8 |
New developments of Functional-oxide Nano-electronics; Closing Remarks |
ISIR, Osaka Univ.1 ○Hidekazu Tanaka1 |
Symposium organized by Research Group on Photoelectronics of Disordered Materials:Recent Progress in Amorphous Spectroscopy |
Sept. 17 9:00〜12:50 |
17a-ZC - 1〜7 |
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1 |
Introductory talk: Recent progress in amorphous spectroscopy |
TMU1 ○Koichi Kajihara1 |
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2 |
Structure and Dynamics of Non-Crystalline Materials by Scattering Methods |
JAEA/J-PARC1, Kyushu Univ.2 ○Yukinobu Kawakita1, Shin'ichi Takeda2 |
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3 |
Studies of the structure and dynamics of disordered materials with pulsed neutron scattering techniques at J-PARC |
JAEA1, KEK2 ○Kentaro Suzuya1, Toshiya Otomo2, Kenji Nakajima1, Mitsutaka Nakamura1 |
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4 |
Structural Analysis of Amorphous Materials by Anomalous X-ray Scattering |
Tohoku Univ.IMR.1 ○Kazumasa Sugiyama1 |
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Break 10:55〜11:05 |
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5 |
Properties and Structure of Glass melts using Laser spectroscopy |
Kyushu University1 ○Shigeru Fujino1 |
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6 |
in line electron-spin-resonance study of surface reaction for plasma etching |
Nagoya Univ.1, AIST2 ○Kenji Ishikawa1, Satoshi Yamasaki2, Makoto Sekine1, Masaru Hori1 |
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7 |
Characterization of Amorphous Materials by Solid-State NMR |
ICR, Kyoto Univ.1 ○Hironori Kaji1, Tatsuya Fukushima1, Furitsu Suzuki1, Atsushi Goto1 |