Memorial Lecture |
Memorial Lecture |
Aug. 29 15:00`16:50 |
29p-C - 1`2 |
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1 |
Characteristics of Transparent Oxides and Function Cultivation |
Tokyo Institute of Technology1@Hideo Hosono1 |
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Break 15:50`16:00 |
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2 |
Development of Optical Information Processing and its Contribution to Academic and Industrial Fields |
Tokyo Institute of Technology1@Jumpei Tsujiuchi1 |
Special Symposium |
Research and Development in Organic Light-Emitting Diodes for 25 Years:The History and Prospects |
Aug. 29 9:20`18:00 |
29a-ZF - 1`3 |
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1 |
Introductory TalkFEvolution from OPC Photoreceptor to Organic EL |
Osaka Univ.1@Masaaki Yokoyama1 |
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2 |
Plenary Lecture: White OLED: from Laboratory to Mass Production |
Yamagata Univ.1@Junji Kido1 |
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3 |
The discovery of a MoOx hole-injection effect and its recent developments |
Yamagata Univ.1@Shizuo Tokito1 |
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Lunch 11:30`13:00 |
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29p-ZF - 1`7 |
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1 |
Flexible OLED displays driven by organic TFTs |
Sony Corp.1@Iwao Yagi1 |
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2 |
Light emitting polymer: Recent progress and future perspectives of Polymer OLED material |
Sumitomo Chemical Co., Ltd.1@Takeshi Yamada1, Yoshiaki Tsubata1 |
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3 |
Current Status and Future Trend of OLED Lighting |
Panasonic Electric Works Co., Ltd.1@Takuya Komoda1 |
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Break 15:00`15:20 |
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4 |
Optical Design of Organic Light Emitting Devices Approach to Lossless Light Source |
Kanazawa Institute of Technology1@Akiyoshi Mikami1 |
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5 |
Study of the Electronic Structures of Organic EL Devices: From Model Interfaces in Ultrahigh Vacuum to Realistic Interfaces in Atmosphere |
Chiba Univ.1@Hisao Ishii1 |
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6 |
Fabrication Process Dependence of OLED Performance and Investigation of the Origin |
Kyoto Univ.1, Kyushu Univ.2@Hironori Kaji1, Tatsuya Fukushima1, Masashi Fukuchi1, Chihaya Adachi2 |
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7 |
Recent development on organic light emitting materials |
Kyushu Univ.1@Chihaya Adachi1 |
Centennial SymposiumF100 years of Superconductivity `Past, Present and Future of Superconductivity` |
Aug. 30 9:00`16:55 |
30a-YB - 1`5 |
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1 |
Introduction of Centennial Symposium Past, Present and Future of Superconductivity |
Kyushu Univ.1@Keiji Enpuku1 |
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2 |
Superconducting Materials |
NIMS1@Kazumasa Togano1 |
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3 |
Toward understanding superconductivity since 1911 |
TUAT1@Michio Naito1 |
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Break 10:25`10:40 |
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4 |
Electromagnetic Phenomena in Superconductors |
Kyushu Inst. Tech.1@Teruo Matsushita1 |
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5 |
Metal Based Superconducting Wires |
Cryogenics and Superconductivity Society of Japan1@Yasuzo Tanaka1 |
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Lunch 12:00`13:20 |
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30p-YB - 1`5 |
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1 |
Superconducting Technology - 100 years of the past and the future |
Japan Science and Technology Agency1@Koichi Kitazawa1 |
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2 |
Development of cuprate superconducting wires |
Fujikura Ltd.1@Yasuhiro Iijima1 |
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Break 14:55`15:10 |
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3 |
Application of superconducting wires |
RIKEN1@Hideaki Maeda1 |
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4 |
Superconductor Digital Electronics |
Nagoya Univ.1@Akira Fujimaki1 |
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5 |
Superconducting Analog Electronics |
Toyohashi University of Technology1@Saburo Tanaka1 |
Symposium |
Control of Physical Properties of Semiconductors with Intentional Doping of Functional Impurities and Its Device Applications: Toward Construction of 21st-century-type Silicon technologies |
Aug. 29 9:00`12:00 |
29a-ZR - 1`7 |
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1 |
Introduction |
Niigata Univ.1@Hiroshi Kaneta1 |
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2 |
Point Defects in Silicon Melt Growth from the Experimental Results |
ShinEtsu Handotai1@Takao Abe1, Toru Takahashi1 |
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3 |
Atomic Level Measurements on Semiconductor Surfaces with Atomic Force Microscope |
Osaka Univ.1@Masayuki Abe1, Yoshiaki Sugimoto1, Seizo Morita1 |
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Break 10:10`10:25 |
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4 |
Effects of Doped Impurities and Metals on Minority Carrier Lifetime |
εw@Hw€Θ1@Yoshio Ohshita1 |
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5 |
Behavior and Control of Crystal Defects on Silicon Devices |
`oRE_CRE1@Hidekazu Yamamoto1 |
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6 |
Development of MCZ-Si Wafer for Power Devices |
Covalent Silicon Corp.1@Satoko Nakagawa1, Kazuhiko Kashima1 |
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7 |
Closing Talk |
Kochi Univ. Tech. Res. Inst.1@Tetsuya Yamamoto1 |
Frontier in Optical Science |
Aug. 29 9:00`18:00 |
29a-N - 1`7 |
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1 |
Introductory Talk |
Univ. of Electro-Comm.1@Masayuki Katsuragawa1 |
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2 |
Molecular Orbital Imaging using High Harmonic Generation |
ISSP Univ. of Tokyo1, JST-CREST2@Jiro Itatani1,2 |
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3 |
Ultra high resolution real time atomic and molecular imaging by laser-induced rescattering electron spectroscopy |
University of Electro-communications@Toru Morishita |
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4 |
X-ray free electron laser: Generation for new science |
JASRI/XFEL1@Tadashi Togashi1 |
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Break 10:20`10:35 |
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5 |
Creation and control of atomic wavepackets by quantum phase-locking |
Aoyama Gakuin Univ.1@Haruka Maeda1 |
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6 |
Coherent Control to Quantum Simulation |
Kyoto Univ.1, JST-CREST2, Purdue Univ.3@Rekishu Yamazaki1,2,3 |
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7 |
Space-time and Macroscopic Quantum Measurement proved by ultimately precise optical measurement techniques. |
ICRR Univ. of Tokyo1@Shinji Miyoki1 |
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Lunch 11:50`13:00 |
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29p-N - 1`12 |
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1 |
Selective excitation of an electronic state by correlated photons |
PRESTO-JST1, Photon Pioneers Center2@Hisaki Oka1,2 |
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2 |
Control of a frequency-entangled state for optical measurements |
Univ. of Electro-Comm.1@Ryosuke Shimizu1 |
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3 |
Quantum coherent control and its applications using ultrafast optical pulses in an ensemble of strain-compensated quantum dots
|
Keio Univ.1@Junko Hayase1 |
£ |
4 |
Exciton diffusion in individual single-walled carbon nanotubes |
Inst. Eng. Innov., Univ. Tokyo1, Global Edge Inst., Tokyo Inst. Technol.2, Mech. Eng., Univ. Tokyo3@Shigeru Moritsubo1, Tomoaki Murai1, Takashi Shimada1, Yoichi Murakami2, Shohei Chiashi3, Shigeo Maruyama3, Yuichiro Kato1 |
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Break 14:40`14:55 |
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5 |
Material manupulation with intense THz pulse |
Osaka Univ.1@Masaya Nagai1 |
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6 |
Nanometer-resolution terahertz imaging with semiconductors and carbon devices |
Tokyo Tech1@Yukio Kawano1 |
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7 |
Metamaterials and plasmonic crystals in terahertz region |
Shinshu Univ.1@Fumiaki Miyamaru1 |
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Break 16:10`16:25 |
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8 |
Materials and metamaterials viewed as networks of resonators |
PSC, U. Tokyo1@Hiroharu Tamaru1 |
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9 |
Chemical Reaction Field Produced with Radiation Force
|
Osaka Univ.1, PRESTO JST2@Syoji Ito1,2 |
|
10 |
Photo-science accelerated by young reserchers comunities |
Osaka Univ.1, Keio Univ.2@Masaya Nagai1, Junko Hayase2 |
|
11 |
Developing the Future of Photon Science with Photon Frontier Network |
GPI1@Yoshiaki Kato1 |
|
12 |
Closing remark |
JST Plaza Miyagi1@Hiromasa Ito1 |
Raman spectroscopic imaging: innovation and future of optical microscopy |
Aug. 29 10:00`16:40 |
29a-ZB - 1`6 |
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1 |
Introductroy: Raman spectroscopic imaging - technological advancements and new applications - |
Osaka Univ.1@Katsumasa Fujita1 |
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2 |
Raman microscopy for visualization of cellular functions |
Osaka Univ.1@Katsumasa Fujita1 |
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3 |
Biomolecular imaging by Raman spectrometric method |
Kyoto Pref. Univ. Med.1@Yoshinori Harada1, Tetsuro Takamatsu1 |
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4 |
Multi-photon Spectroscopic Imaging of a Living Cell Using a White-light Laser Source |
The Univ. of Tokyo1@Hideaki Kano1, Hiroki Segawa1, Masanari Okuno1, Hiro-o Hamaguchi1 |
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5 |
Observation of cellular response by multifocus realtime CARS microscopy |
Grad. Sch. of Eng. Sci., Osaka Univ.1@Mamoru Hashimoto1 |
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6 |
Bioimaging based on stimulated Raman scattering microscopy |
Osaka Univ.1, JST-PRESTO2@Yasuyuki Ozeki1,2, Kazuyoshi Itoh1 |
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Lunch 12:10`14:30 |
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29p-ZB - 1`6 |
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1 |
Raman Microscopy Analysis of Graphene Ultrathin Films |
Natl Inst Mat Sci1@Daisuke Fujita1, Jianhua Gao1, Mingsheng Xu1 |
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2 |
Raman Spectroscopic Imaging of Silicon Thin Film for High Performance Display |
NAIST1@Yukiharu Uraoka1, Yosuke Tojo1, Yasuaki Ishikawa1, Ichiro Yamashita1 |
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3 |
New Development of Surface-enhanced Raman Scattering Imaging |
Kwansei Gakuin University1@Yukihiro Ozaki1 |
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4 |
Tip-enhanced Raman scattering (TERS) microscope for nano-imaging |
Osaka Univ.1, RIKEN2@Satoshi Kawata1,2 |
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5 |
Near-field Nonlinear Optical Spectroscopic imaging |
RIKEN (The Institute of Physical and Chemical Research)1, CREST, Japan Corporation of Science and Technology2@Kentaro Furusawa1, Norihiko Hayazawa1,2 |
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6 |
Closing talk |
Osaka Univ.1@Katsumasa Fujita1 |
Recent advances in nano carbon (3): Graphene and Nanotube |
Aug. 29 10:20`16:40 |
29a-ZE - 1`4 |
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1 |
Preface: Recent Advances in Nano Carbon Materials (3) |
Osaka Univ. ISIR1@Kazuhiko Matsumoto1 |
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2 |
Growth and Structure Selectivity of Graphene on SiC |
EcoTopia Inst. Nagoya Univ.1, Nagoya Univ.2, JFCC3@Michiko Kusunoki1,3, Wataru Norimatsu2,3 |
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3 |
Theoretical Study on Electronic Properties of Graphene Nanostructures |
ΫimA[LeNgjNX€_1@Katsunori WAKABAYASHI1 |
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4 |
Low-temperature graphene synthesis by using plasma CVD and its application to transparent electrodes |
AIST1@Masataka Hasegawa1, Jaeho Kim1, Masatou Ishihara1, Takatoshi Yamada1, Yoshinori Koga1, Kazuo Tsugawa1, Sumio Iijima1 |
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Lunch 12:00`13:30 |
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29p-ZE - 1`6 |
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1 |
Terahertz evaluation of graphene and its device application |
Tokyo Tech1@Yukio Kawano1 |
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2 |
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@Kazuhito Tsukagoshi1 |
|
3 |
The application of Carbon nanotube (VGCFTM) to Lithium Ion Battery |
@Yoshiyuki Nishimura, Showa Denko K.K. |
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Break 15:00`15:30 |
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4 |
Phase of Materials in Nano Space of Carbon Nanotube |
Tokyo Univ. of Science1, Univ. of Tokyo2@Yoshikazu Homma1, Shohei Chiashi2 |
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5 |
Various Device applications by Nano Carbon Materials |
Osaka Univ. ISIR1@Kazuhiko Matsumoto1 |
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6 |
Closing talk |
Keio Univ.1@Yuji Awano1 |
Recent progress of large capacity optical transmission technology- the era of over 100 Tbit/s capacity - |
Aug. 29 13:00`16:30 |
29p-ZD - 1`6 |
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1 |
High-Capacity Coherent Optical Transport Network |
NTT Network Innovation Laboratories1@Yutaka Miyamoto1 |
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2 |
High speed optical OFDM trasmission beyond 100 Gbit/s |
KDDI R&D Labs.1@Itsuro Morita1 |
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3 |
Multi-level High-speed Optical Modulation Devices |
NICT1@Atsushi Kanno1, Takahide Sakamoto1, Isao Morohashi1, Tetsuya Kawanishi1 |
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Break 14:45`15:00 |
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4 |
Digital Signal Processing Technology for Optical Communication |
Mitsubishi Electric Corporation1@Takashi Sugihara1, Takashi Mizuochi1 |
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5 |
The latest technology of transmission optical fibers |
Furukawa1@Takeshi Yagi1 |
|
6 |
Silica-based PLC integration technologies for polarization multiplexed multi-level modulation formats |
NTT1@Takashi Saida1 |
Graphene Epitaxy:Present Status and its Future Prospect |
Aug. 29 13:00`17:00 |
29p-H - 1`10 |
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1 |
Introductory Talk: Present status and future prospect of epitaxial graphene technology 2 |
Hokkaido Unoversity1@Kanji Yoh1 |
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2 |
Epitaxial growth and transport characterization of single layer graphene on SiC |
Hokkaido Unoversity1@Kanji Yoh1 |
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3 |
Growth and LEEM characterization of epitaxial graphene |
NTT Basic Research Labs.1@Hiroki Hibino1, Shinichi Tanabe1, Hiroyuki Kageshima1, Fumihiko Maeda1 |
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4 |
Growth and electronic structures of graphene nanostructures on SiC surfaces |
Kyushu Univ.1, Univ. Tokyo2@Satoru Tanaka1, Takashi Kajiwara1, Yusuke Kurisu1, Kohhei Morita1, Tsuguo Yoshimura2, Kan Nakatsuji2, Fumio Komori2 |
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Break 14:30`14:45 |
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5 |
Analyses of Grains of CVD-Synthesized Graphene and its Application to Electronic Devices |
GNC, AIST1@Shintaro Sato1, Kenjiro Hayashi1, Katsunori Yagi1, Ayaka Yamada1, Daiyu Kondo1, Shu Nakaharai1, Naoki Harada1, Naoki Yokoyama1 |
|
6 |
Epitaxial growth of single-layer graphene by atmospheric CVD |
Kyushu Univ.1@Hiroki Ago1 |
|
7 |
In-situ Observation of Graphene Growth on Ni(111) by LEEM |
Waseda Univ.1, NTT Basic Research Lab.2, National Institute for Material Science.3, Osaka Electro-Communication Univ.4@Genki Odahara1, Hiroki Hibino2, Nanao Nakayama1, Tomoyuki Shimbata1, Chuhei Oshima1, Shigeki Otani3, Masahiko Suzuki4, Tsuneo Yasue4, Takanori Koshikawa4 |
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8 |
Graphene grown by Chemical Vapor Deposition for
transparent conductive films. |
Fuji Electric Co., Ltd.,1@Takeshi Fujii1, Mariko Sato1, Yoshiyuki Yonezawa1, Nobuyuki Takahashi1, Yukimi Ichikawa1 |
|
9 |
Understanding and controlling the graphene/SiO2 substrate interaction |
The University of Tokyo1@Kosuke Nagashio1, Akira Toriumi1 |
|
10 |
Closing talk |
Hokkaido Univ.1@Kanji Yo1 |
Reactor modeling and design of MOVPE and HVPE processes for III-V semiconductors |
Aug. 29 13:00`17:00 |
29p-ZK - 1`7 |
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1 |
Introductory talk: Letfs go back to fundamentals of reactor modeling |
Univ. Tokyo1, Fujitsu Lab.2@Masakazu Sugiyama1, Mitsuru Egawa2 |
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2 |
Atomistic mechanism for reactions on compound semiconductor surfaces |
Mie Univ.1@Tomonori Ito1 |
|
3 |
Kinetic Studies on Gas-Phase and Surface Reactions and Numerical Simulation for GaAs-MOVPE process |
The Univ. of Tokyo1@Yukihiro Shimogaki1 |
|
4 |
Reactions and simulation of Nitrides MOVPE growth |
Tokyo Univ. of Science1@Kazuhiro Ohkawa1 |
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Break 15:00`15:15 |
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5 |
Realization of High Growth Rate and Scale-up of Nitride Semiconductors MOVPE |
TN EMC1@Koh Matsumoto1 |
|
6 |
Thermodynamic Analysis of HVPE and Growth System |
Tokyo Univ. of Agri. & Tech.1@Akinori Koukitu1, Yoshinao Kumagai1, Hajime Murakami1 |
|
7 |
ultra-high speed growth of GaN with HVPE |
Hitachi-cable, Ltd.1@Takehiro Yoshida1, x Oshima1, Kazutoshi Watanabe1, Tadayoshi Tsuchiya1, Tomoyoshi Mishima1 |
Progress and challenges of fabrication process for CIGS solar cell |
Aug. 29 13:00`17:40 |
29p-L - 1`9 |
|
1 |
Introductory of the Symposium |
Tokyo Univ. of Science1@Mutsumi Sugiyama1 |
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2 |
Progress in developments of CIS solar cells - from vacuum process to non-vacuum process - |
Tokyo Tech1@Akira Yamada1 |
|
3 |
Towards High-Efficiency Low-Cost CIGS Solar Cells and Modules |
AIST1, Kagoshima Univ.2, Tsukuba Univ.3@Shigeru Niki1, Shogo Ishizuka1, Hironori Komaki1, Shigenori Furue1, Hajime Shibata1, Koji Matsubara1, Akimasa Yamada1, Norio Terada2, Takeaki Sakurai3, Katsuhiro Akimoto3, Toshiyuki Ohdaira1, Ryouichi Suzuki1, Shoji Ishibashi1 |
|
4 |
Selenization/Sulfurization growth of Cu(In,Ga)(S,Se)2 thin films |
Tokyo Univ. of Science1, Tohoku Univ.2@Mutsumi Sugiyama1, Shigefusa Chichibu2 |
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Break 15:00`15:15 |
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5 |
Buffer layer and interface controls in CuInSe2 related compound thin film solar cells |
Ritsumeikan Univ.1@Takashi Minemoto1 |
|
6 |
Development of Rare Metal-free CZTS-based Thin Film Solar Cells |
Nagaoka Nat. College of Tech.1, JST CREST2@Hironori Katagiri1,2, Kazuo Jimbo1 |
|
7 |
Development of CIS Solar Cells with Superstrate Configuration |
Panasonic Electric Works1@Takayuki Negami1 |
|
8 |
Manufacturing Technology of CIS-based Thin-film PV in Solar Frontier K.K. |
Showa Shell Sekiyu K.K.1@Katsumi Kushiya1 |
|
9 |
Closing Remarks
-Developments and Challenges of Preparation Processes for CIGS and CZTS Solar Cells- |
Fac. of Engineering, Niigata Univ.1, Cen. for Transdisciplinary Res., Niigata Univ.2@Nozomu Tsuboi1,2 |
Next-generation measurement and analytical instruments using superconducting detectors |
Aug. 29 13:00`17:55 |
29p-ZA - 1`10 |
|
1 |
Introduction to IEC standardization of superconducting detectors |
AIST1@Masataka Ohkubo1 |
|
2 |
SEM-EDS analysis using TES detector |
Tokyo Univ. of Science1@Izumi Nakai1 |
|
3 |
TES X-ray Microcalorimeters for Astrophysics Observations |
JAXA1@Kazuhisa Mitsuda1 |
|
4 |
MKID-Millimeter and Submillimeter Detectors for Astronomical Observation |
National Astronomical Observatory of Japan1, University of Tokyo2, Tsukuba University3@Yutaro Sekimoto1, Masato Naruse1,2, Tom Nitta1,3, Kenichi Karatsu1, Yasunori Hibi1, Masakazu Sekine1,2, Hiroshi Matsuo1, Takashi Noguchi1, Yoshinori Uzawa1 |
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5 |
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@Hiroyuki Takahashi1 |
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Break 15:10`15:25 |
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6 |
Compact Neutron Diffraction System Based on Single Flux Quantum Circuit |
Nagoya Univ.1, Osaka Pref. Univ.2@Akira Fujimaki1, Shigeyuki Miyajima1, Tetsuya Kusumoto1, Yukio Akita2, Ikutaro Yagi2, Takekazu Ishida2 |
|
7 |
Synchrotron radiation materials analysis using STJ X-ray detector |
AIST1, KEK2@Shigetomo Shiki1, Masahiro Ukibe1, Yoshinori Kitajima2, Masataka Ohkubo1 |
|
8 |
Mass spectrometry with superconducting tunnel junction (STJ) and superconducting nano-stripline detector (SSLD) |
AIST1, Tsukuba Univ.2, Osaka Pref. Univ.3, NICT4, Yokohama Nat. Univ.5, CNR CNR6@Masataka Ohkubo1, Masahiro Ukibe1, Shigetomo Shiki1, Kaori Chiba1, Tatsuya Kitazume1, Shigeo Tomita2, Shigeo Hayakawa3, Koji Suzuki1, Nobuyuki Zen1, Shigehito Miki4, Zhen Wang4, Yoshihiro Takahashi5, Nobuyuki Yoshikawa5, Alessandro Casaburi6, Roberto Cristiano6 |
|
9 |
Optical transition edge sensors for quantum information |
NMIJ/AIST1@Daiji Fukuda1 |
|
10 |
Development of Multi-channel Superconducting Single Photon Detector System for Quantum Information and Quantum Communications |
NICT1@Zhen Wang1, Shigehito Miki1, Taro Yamashita1, Hirotaka Terai1, Mikio Fujiwara1, Masahide Sasaki1 |
HIDEMITSU AOKI Memorial Symposium- The forefront of Solid-kiquid interface phenomena -Hosted by Nano Interface Control Electrochemical (NICE),Japan Society of Applied Physics Express (JSAP) |
Aug. 29 13:30`16:15 |
29p-ZC - 1`10 |
|
1 |
An opening address |
Sony Corporation1@Hayato Iwamoto1 |
|
2 |
Introduction |
Toshiba R&D1@Hiroshi Tomita1 |
|
3 |
Electrolyzed water and functionalized water --- searching for a eco-friendly cleanig meadia with Prof. Aoki |
Organo Corporation1@Koji Yamanaka1 |
|
4 |
Research on wet cleaning process with Dr. Aoki |
Renesas Electronics1@Hiroaki Tomimori1, Yoshiko Kasama1, Morimitsu Tanaka1 |
|
5 |
Conclusion |
Toshiba R&D1@Hiroshi Tomita1 |
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Break 14:35`14:45 |
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6 |
Photo resist stripping using e-Sulfuric (Part 2) |
Kurita Water Industries Ltd.1@Tatsuo Nagai1, Haruyoshi Yamakawa1, Toru Otsu1, Minoru Uchida1, Kazumi Tsukamoto1 |
|
7 |
The fluid analysis for a rotating single wafer cleaning process |
Toshiba R&D1, Shibaura Mecatoronics2@Hiroshi Tomita1, Tsutomu Kikuchi2 |
|
8 |
Evaluation of Mechanical Property of Resist Film and Its Removal by Two-Fluid Jet |
Shizuoka Univ.1, Kanazawa Inst. Tech.2@Toshiyuki Sanada1, Takashi Mashiko1, Kentaro Hashimoto1, Hideo Horibe2 |
|
9 |
Report of NICE charge up WG activity 2 |
DAINIPPON SCREEN MFG.CO.LTD.1, Renesas Electronics Corporation.2, ORGANO CORPOPATION.3, Osaka Univ.4@Masahiro Miyagi1, Morimitsu Tanaka2, Shunsuke Saitou2, Koji Yamanaka3, Masanobu Sato1, Hiroyuki Araki1, Hidemitsu Aoki4 |
|
10 |
A closing address |
Sony Corporation1@Hayato Iwamoto1 |
Deterministic doping and single-dopant devices for extended CMOS |
Aug. 29 13:30`16:30 |
29p-ZM - 1`8 |
|
1 |
Introduction: Deterministic doping and single-dopant devices for extended CMOS |
Waseda Univ.1@Takahiro Shinada1 |
|
2 |
Extended CMOS Map in ITRS/STRJ Emerging Research Device (ERD) Working Group |
Tokyo Tech.1@Ken Uchida1 |
£ |
3 |
ITRS Emerging Research Materials [ERM]: Overview and Deterministic Doping |
Semiconductor Research Corporation (SRC)1@Daniel Herr1 |
|
4 |
Single-dopant Devices toward Diversity and High Temperature Operation |
Res. Inst. Electron., Shizuoka Univ.1@Michiharu Tabe1, Daniel MoraruP, Takeshi Mizuno1 |
|
5 |
Single dopant doping process: Challenge for the aiming accuracy to 1nm |
Waseda Inst.1, Waseda Univ.2, NTT3, Shizuoka Univ.4@Takahiro Shinada1, Masahiro Hori2, Yukinori Ono3, Michiharu Tabe4 |
|
6 |
Characterization of Single Dopants; Field-effect charge-state control and its physics |
¨«ξb€1@Yukinori Ono1, Jinichiro Noborisaka1, Gabriel P. Lansbergen1, Akira Fujiwara1 |
£ |
7 |
Ab initio simulation of single dopant devices: electronic states and transport |
Res. Inst. of Electronics1, Univ. of Southampton2, JAIST3@Daniel Moraru1, Youhei Kuzuya1, Takeshi Mizuno1, Michiharu Tabe1, Hiroshi Mizuta2,3 |
|
8 |
Closing Talk |
UJTLab1@Bunji Mizuno1 |
Memorial Lecture |
Aug. 29 13:00`16:55 |
29p-K - 1`2 |
|
1 |
Practical application of the color image intensifier |
Toshiba Co.1@Koichi Nittoh1 |
|
2 |
Radiophotoluminescence of Ag{-activated Phosphate Glass as a Glass Dosemeter |
Chiyoda Technol Oarai research Center1, Kanazawa Inst. of Tech., Adv. Mater. Sci. R&D Center2, Graduate School of Natural Science, Kanazawa Univ.3, Institute of Multidisciplinary Research for Advanced Materials, Tohoku Univ.4, Department of Materials Chemistry, Graduate School of Engineering, Kyoto Univ.5@Yuka Miyamoto1,2, Haruki Kobayashi2, Yoshinori Takei2, Hidehito Nanto2, Toshio Kurobori3, Takayuki Yanagida4, Akira Yoshikawa4, Masaaki Sakakura5, Yasuhiko Shimotsuma5, Kiyotaka Miura5, Kazuyuki Hirao5, Yukari Nagashima1, Takayoshi Yamamoto1 |
Widespread Application of Radiation and Isotopes-Development of Environmental Research, Medical Care, Accelerator and Material Analysis Science- |
Aug. 29 13:30`16:55 |
29p-K - 3`9 |
|
3 |
Introductory: Widespread Application of Radiation and Isotopes
-Development of Environmental Research, Medical Care, Accelerator and Material Analysis Science- |
Osaka Pref. Univ.1, JRIA2@Miyamaru Hiroyuki1, Yamada Takahiro2 |
|
4 |
Status of Radiation Application in the KURRI-LINAC |
Kyoto Univ.1@Jun-ichi Hori1, Toshiharu Takahashi1, Takumi Kubota1, Koichi Sato1, Naoya Abe1, Masaaki Sakamoto1 |
|
5 |
Application of a natural radioactivity Radon |
Kinki University1@Hirokuni Yamanishi1 |
|
|
Break 14:50`15:00 |
|
|
6 |
Chemistry of new elements -Frontiers opened by a recoil separator- |
RIKEN Nishina Center1@Hiromitsu Haba1 |
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7 |
Radiation Therapy Techniques. - Past, Present, and Future- |
Osaka Univ.1@Yutaka Takahashi1 |
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8 |
Development of a Positron Probe Microanalyzer and its Application |
AIST1@Ryoichi Suzuki1 |
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9 |
Closing talk |
JRIAS1@Takahiro Yamada1 |
Sate-of-the-art technology using synchrotron radiation for development of materials and devices |
Aug. 29 13:30`17:00 |
29p-ZH - 1`7 |
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1 |
Cutting-edge development of materials and devices using synchrotron radiation |
Nara Institute of Science and Technology (NAIST)1@Hiroshi Daimon1 |
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2 |
Development of oxide new material-based electronic devices facilitated by Synchrotron Radiation |
Tokyo Tech1@Hideo Hosono1 |
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3 |
Study of Deterioration Mechanism of Li Ion Battery by Direct Observation of Li Ion Propagation in Cathode during Battery Reaction |
Kyoto Univ.1, Kyoto Univ.2, Kyoto Univ.3@Haruno Murayama1, Eiichiro Matsubara2, Takahiro Fujimoto1, Tomoya Kawaguchi2, Yuki Orikasa3, Hajime Arai1, Yoshiharu Uchimoto3, Zempachi Ogumi1 |
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4 |
XAFS Analysis of Electrode Materials for Li-ion Batteries |
Toyota Central R&D Labs., Inc.1@Takamasa Nonaka1 |
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Break 15:10`15:30 |
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5 |
Study of materials for spintronics devices using circularly polarized synchrotron x-rays |
JASRI1@Tetsuya Nakamura1 |
|
6 |
Investigation of electronic strucutre and phase change mechanism in phase change memory materials |
HiSOR1, NIMS2@PCXP kobayashi1,2 |
|
7 |
Local electrochemical polarization of solid electrolyte |
Univ. Tokyo1, NIMS2@Shu Yamaguchi1, Takashi Tsuchiya1, Shogo Miyoshi1, Yoshiyuki Yamashita2, Hideki Yoshikawa2, Kazuya Terabe2, Keisuke Kobayashi2 |
Present and Future of Solar Cell technologies |
Aug. 29 13:30`18:00 |
29p-M - 1`9 |
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1 |
Importance of Photovoltaics, Present Status and Future Prospects of Solar Cells |
Toyota Tech. Inst.1@Masafumi Yamaguchi1 |
|
2 |
Future direction of crystalline silicon solar cell |
Toyota Techonological Inst.1@Yoshio Ohshita1 |
|
3 |
A New Technology for Fabricating High Efficiency Solar Cells by Using Cat-CVD |
JAIST1@Hideki Matsumura1, Kouichi Koyama1, Kouichi Higashimine1, Nobuo Ootsuka1 |
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4 |
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@ 1 |
|
5 |
For the Survival of Thin Film Silicon Solar Cells |
Osaka Univ.1, CREST/JST2@Hiroaki Okamoto1,2, Yasushi Sobajima1,2, Akihisa Matsuda1,2 |
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Break 16:00`16:15 |
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6 |
Bandgap Science for Organic Solar Cells |
IMS1@Masahiro Hiramoto1 |
|
7 |
Highly Efficient Dye-Sensitized Solar Cell |
National Inst. for Materials Science1@Liyuan Han1 |
|
8 |
Improvement of Compound Thin Film Solar Cells Toward After Next Generation |
Nagaoka Nat. College of Tech.1, JST CREST2@Hironori Katagiri1,2 |
|
9 |
Summary and introduction of PRESTO program (JST) on photoenergy conversion systems and materials for the next generation solar cells |
Kyushu Institute of Technology1, JST2@Shuzi Hayase1,2 |
Plasma Electronics Symposium : Plasma Process Applied Technologies for Green/Life Innovation and the Future Perspective |
Aug. 29 13:35`17:30 |
29p-ZN - 1`8 |
|
1 |
Future Perspective of Plasma Process Technology for Green and Life Innovations |
Toshiba Corp.1@Kazuaki Kurihara1 |
|
2 |
Development of plasma enhanced chemical transport technique for application to crystalline Si solar cell |
Osaka Univ.1@Hiromasa Ohmi1 |
|
3 |
Plasma Stripping Technique of Saw Wire for Slicing of Silicon Rod
|
Nagasaki Univ.1, Japan Fine Steel2@Hiroshi Fujiyama1, Kenji Tatsuishi1, Yusuke Kobayashi1, Naoshi Matsuo1, Masanori Shinohara1, Naohisa Iwamoto2, Shinichiro Nishiyama2 |
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4 |
Crystalline Growth of Thin-Film Semiconductor Induced by Atmospheric-Pressure DC Arc Discharge Plasma Jet |
Hiroshima University1@Seiichiro Higashi1 |
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Break 15:15`15:30 |
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5 |
Innovative Energy-Saving In-flight Melting by Thermal Plasmas for Glass Production |
Tokyo Inst. Tech.1, Asahi Glass Co., Ltd.2@Takayuki Watanabe1, Osamu Sakamoto2 |
|
6 |
Future Tasks for Plasma Light Sources |
Ehime University@Hideki Motomura, Masafumi Jinno |
|
7 |
Plasma Application to Bio and Medical Fields for Life-innovation |
Shizuoka Univ1@Masaaki Nagatsu1, Ying Zhao1, Teguh Endah Saraswati1, Iuliana Motrescu1, Akihisa Ogino1 |
|
8 |
Discussion |
@ |