Memorial Lecture |
Memorial Lecture |
March 15 13:15〜15:00 |
15p-A2 - 1〜2 |
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1 |
Bridging Semiconductor and Magnetism |
Tohoku Univ. ○Hideo Ohno |
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Lunch 14:05〜14:10 |
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15p-A2 - 1〜2 |
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2 |
Microchannel Epitaxy- from understanding of crystal growth to application -Microchannel Epitaxy- from understanding of crystal growth to application - |
Tokyo Univ. ○Tatau Nishinaga |
Special Symposium |
Applied Physics toward Green Society - Present Status and Future Prospects for Power Generation, Storage, Transmission and Saving Technologies - |
March 15 9:30〜17:55 |
15a-S - 1〜4 |
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1 |
Relation between Applied Physics and Green Society - Introductory Talk - |
Waseda University, Center for Research Strategy1 ○Yuichi Matsushima1 |
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2 |
Future Energy and Applied Physics |
Graduate school of Science and Eng, PVREC, Tokyo Tech1 ○Makoto Konagai1 |
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Break 10:25〜10:40 |
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3 |
Future Outlook of Photovoltaic Technologies |
AIST, RCPVT1 ○ 1 |
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4 |
Large scale Photovoltaic Generation System toward the Future |
NTT Facilities, Inc., Tokyo Institute of Technology1 ○Ryo Tanaka1 |
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Lunch 12:00〜13:30 |
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15p-S - 1〜7 |
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1 |
High efficiency ecology devices (power devices, low power devices, energy harvest) |
ROHM Co., Ltd.1 ○Hidemi Takasu1 |
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2 |
Present and Future on Technology of Energy Storage |
Faculty of Science and Engineering, Waseda Univ.1 ○Tetsuya Osaka1 |
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3 |
Present Status and Future Prospects for Wind Power |
Eurus Energy Holdings Corporation1 ○Michio Nittoji1 |
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Break 15:30〜15:45 |
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4 |
Development Status of Superconducting Power Cable |
Sumitomo Electric Industries, Ltd.1 ○Takato Masuda1 |
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5 |
Multicore Technology for Green Computing |
Department of Computer Science & Engineering, Waseda University1 ○Hironori Kasahara1 |
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6 |
Technology for Smart Grid |
Graduate School of Advanced Science and Eng., RIANT, Waseda Univ.1 ○Yasuhiro Hayashi1 |
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7 |
Closing Remarks |
Faculty of Science and Engineering, Waseda Univ.1 ○Horikoshi Yoshiji1 |
Element Strategy for Applied Physics |
March 15 13:30〜17:40 |
15p-E4 - 1〜9 |
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1 |
Introductory Talk |
Tokyo Tech1 ○Kamiya Toshio1 |
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2 |
New Prospects for Elements Strategy Initiative by MEXT |
Office for Materials Science and Nanotechnology Development,Ministry of Education, Culture, Sports, Science and Technology1 ○Shuichi Sakamoto1 |
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3 |
An overview of the current situation of the Rare-Earths
Market and consideration about securing supply options |
Metals Strategy & Exploration Unit, JOGMEC1 ○Yozo Baba1 |
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4 |
Materials Informatics: A Novel Approach to Materials Design |
Kyoto Univ.1, JFCC2 ○Isao Tanaka1,2, Atsuto Seko1, Fumiyasu Oba1, Atsushi Togo1 |
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5 |
Future Possibilities of Graphene Electronics |
RIEC, Tohoku Univ.1 ○Maki Suemitsu1 |
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Break 15:25〜15:40 |
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6 |
New Development of Lead-free Piezoelectric Materials |
Univ. Yamanashi1 ○Satoshi Wada1, Ichiro Fujii1, Ryuta Mitsui1, Koichi Nakashima1, Nobuhiro Kumada1 |
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7 |
First-Principles Electronic Structure Calculation |
Department of Physics, Faculty of Science/ISSP, The University of Tokyo1 ○Shinji Tsuneyuki1 |
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8 |
Can ZnO beat GaAs? |
QPEC & Dept Appl Phys, Univ Tokyo1, CMRG&CERG, RIKEN-ASI2 ○Masashi Kawasaki1,2 |
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9 |
Materials Strategy for Functional Design Utilizing Abundant Elements |
FRC&MSL, Tokyo Tech1 ○Hideo Hosono1 |
Symposium |
Gravity application research |
March 15 13:30〜18:15 |
15p-C3 - 1〜9 |
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1 |
Extreme gravity field by shock wave |
Hiroshima University1 ○Toshimori Sekine1 |
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2 |
Isotopic fractionation of a solid tin under a ultra-strong centrifugal force field |
Japan Atomic Energy Agency1, Kumamoto University2 ○Takahito Osawa1, Masao Ono1, Fumitaka Esaka1, Satoru Okayasu1, Tsutomu Mashimo2 |
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3 |
Variation of Lattice Vibration of Ionic Thin Crystal Layer under Strong Gravitational Field: MD Simulation |
Toyama Prefectural Univ.1, Okayama Univ.2, Kumamoto Univ.3 ○Takahiro Kinoshita1, Takashi Kawakami1, Katsuyuki Kawamura2, Tsutomu Mashimo3 |
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4 |
Change in structure and property of compound crystal under strong gravitational field |
Kumamoto University1 ○Tsutomu Mashimo1 |
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5 |
Sedimentation Behavior of Powder in Thick Slurry under Centrifugal Force |
Hiroshima University1 ○Hiroyuki Suzuki Y.1 |
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Break 16:00〜16:15 |
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6 |
Development of Peltier current lead for superconducting direct current transmission and distribution systems |
Chubu Univ.1 ○Toshio Kawahara1, Satarou Yamaguchi1 |
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7 |
Improvement of functional properties by high oriented crystal structures synthesized in short-duration microgravity condition |
AIST1 ○mikito mamiya1, hideaki nagai1 |
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8 |
Effect of Gravity on the Solute Transport in Crystal Growth of Alloy Semiconductors |
RIE Shizuoka Univ.1, Osaka Univ.2, Shizuoka Insti Sci. and Tech.3, JAXA4 ○Yasuhiro Hayakawa1, Arivanandhan Mukannan1, Rajesh Govindasamy1, Tadanobu Koyama1, Yoshimi Momose1, Hisashi Morii1, Toru Aoki1, Akira Tanaka1, Yasunori Okano2, Youhei Takagi2, Tetsuo Ozawa3, Kaoruho Sakata4, Yuko Inatomi4 |
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9 |
High refractive Index glass production by Containless Processing |
Institute of Space and Astronautical Science1 ○kentei yu1, Shinichi Yoda1 |
レーザービームシェーピングの新展開 |
March 16 9:00〜12:30 |
16a-E9 - 1〜7 |
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1 |
Introductory Talk |
IIS, Univ. Tokyo1 ○Kazuo Kuroda1 |
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2 |
Intensity Distribution Control of Vector Beam |
IMRAM, Tohoku Univ.1 ○Yuichi Kozawa1, Shunichi Sato1 |
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3 |
Generation of ultrashort topological light pulses |
Hokkaido Univ.1, JST-CREST2 ○Ryuji Morita1,2 |
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4 |
Frequency extension of high power optical vortex laser |
Chiba University1, JST-CREST2 ○Takashige Omatsu1,2 |
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Break 10:50〜11:00 |
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5 |
Tailored Beam Generation by Photonic Crystal Lasers and Its Focusing Characteristics |
Kyoto Univ.1 ○Kyoko Kitamura1, Masaya Nishimoto1, Susumu Noda1 |
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6 |
Transverse-mode control and application of microchip solid-state lasers with laser-diode end pumping |
Tokai University1 ○Kenju Otsuka1 |
▲ |
7 |
A Quintessential Non-Gaussian Laser Source |
University of Electro-communications1, PNLebedev Physical Institute of RAS2 ○ManasadeviPriyamvadha Thirugnanasambandam1, Yuri Senatsky2, Kenichi Ueda1 |
Various shock phenomena and their technological development |
March 16 13:30〜18:00 |
16p-C3 - 1〜13 |
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1 |
Introductory Talk : Various Shock Phenomena and Their Technological Development |
National Defense Academy1 ○Hitoshi Matsumoto1 |
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2 |
Development of a Pulsed Wire Discharge Method using Powders for Preparation of Nanosized Particles |
Nagaoka Univ. Tech.1 ○Hisayuki Suematsu1, Satoru Ishihara1, Tsuneo Suzuki1, Tadachika Nakayama1, Koichi Niihara1 |
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3 |
Synthesis and Recovery of Metastable Materials Induced by Shock Compression |
MSL, Tokyo Tech.1, IGSSE, Tokyo Tech.2, SWCC Syowa3 ○Toshiyuki Atou1, Ryo Atarashi2,3, Shigeta Goto2 |
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4 |
Post-Shock Pressure Modulation in Supersonic Flows |
Nagoya Univ.1 ○Akihiro Sasoh1 |
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5 |
Discussion of Fracture Risk Evaluation Method by Impact Force - Application to Forensic Science - |
Eisyo Metal Co., Ltd1, NCGG2 ○Yasumi Ito1,2 |
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6 |
Simulation on Laser Peening using Shocks produced by Laser Ablation |
Inst. Laser Tech.1, Osaka Sangyo Univ.2, Kinki Univ.3 ○Hiroyuki Furukawa1, Manabu Heya2, Hitoshi Nakano3 |
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Break 15:40〜15:55 |
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7 |
Inactivation of Marine Microbe by Shock generated by Pulsed, Power Injection into Aqueous Solution |
Niigata Inst. Technol.1 ○Go Imada1, Takeshi Kawamura1, Kouhei Sato1 |
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8 |
Dynamics of Shock-induced Structural Phase Transition of Zirconia Ceramics |
Tokyo Tech1, Univ. Tokyo2, JAXA3, KEK4 ○Kazutaka Nakamura1, Jianbp Hu1, Kouhei Ichiyanagi2, Nobuaki Kawai3, Shunsuke Nozawa4, Tokushi Sato4, Shinichi Adachi4 |
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9 |
Improvement of fatigue properties for low pressure turbine blades by laser peening |
Toshiba1 ○Itaru Chida1, Yuji Sano1, Takao Inukai1, Rie Sumiya1, Hidekazu Sasaki1, Itaru Murakami1, Hiroshi Nomura1 |
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10 |
Improvement in Fatigue Strength of FSW Joints of Aluminum Alloy by Laser Peening |
Toshiba Corp.1, Okinawa Nat. Coll. Tech.2 ○Yuji Sano1, Kiyotaka Masaki2 |
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11 |
Quantitative analysis of fragmentation of spherical Aluminum projectile by hypervelocity impact onto Alumina ceramic target |
National Defense Academy1 ○Fumikazu Saito1 |
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12 |
Behavior of filled PWB strain by high impact |
Yokogawa Denshikiki1 ○Mitsuru Hirano1, Kenichiro Hoshi1, Takashi Koizumi1 |
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13 |
syougeki |
Toukyoukouka Univ1 ○Kengo Murata1 |
素子間信号伝達構造界面の物理化学,その現状と今後 |
March 17 13:30〜17:10 |
17p-A5 - 1〜8 |
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1 |
Introductory Talk |
AIST1 ○Shin-ichi Ogawa1 |
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2 |
Basics and Future Prospect for On-Chip Signal Transmission Technology |
Tokyo Tech.1 ○Akira Matsuzawa1 |
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3 |
Local Interface Toughness in LSI Interconnects Evaluated by Using the Mechanical Test in a Scanning Electron Microscope
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Nagoya Institute of Technology1, JST2, Keio University3, Fujitsu Laboratories Ltd.4, JEOL Ltd.5 ○Shoji Kamiya1,2, Nobuyuki Shishido1,2, Hisashi Sato1,2, Kozo Koiwa1,2, Omiya Masaki2,3, Masahiro Nishida1,2, Takashi Suzuki4, Tomoji Nakamura4, Takeshi Nokuo2,5, Tadahiro Nagasawa2,5 |
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4 |
Analysis of Local Strain Structures around Through-Silicon Via Interconnects |
Nagoya Univ.1, The Univ. of Tokyo2, Fujitsu Laboratories Ltd3 ○Osamu Nakatsuka1, Hideki Kitada2, Youngsuk Kim2, Yoriko Mizushima3, Tomoji Nakamura3, Takayuki Ohba2, Shigeaki Zaima1 |
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5 |
Optical losses in ultra-small waveguide system for optical wiring. |
NTT Microsystem Integration Labs.1 ○Seiichi Itabashi1, Kouji Yamada1, Tai Tsuchizawa1, Toshifumi Watanabe1 |
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Break 15:25〜15:40 |
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6 |
Contact formation on the basis of the electrical transport in graphene below the metal |
Univ. of Tokyo1 ○Kosuke Nagashio1, Akira Toriumi1 |
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7 |
Formation of electrical contact in organic field-effect transistors |
NIMS1, RIEKN2, JST-CREST3 ○Takeo Minari1,2, Peter Darmawan1, Kazuhito Tsukagoshi1,3 |
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8 |
Atomistic Metallic Wires and Their Conductance |
Univ. Tsukuba1 ○Tokushi Kizuka1 |
Evolution of Ferroelectric Thin-film Applications for Energy Field |
March 17 13:45〜18:00 |
17p-F5 - 1〜11 |
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1 |
Introductory Talk |
AIST ○Takashi Iijima1 |
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2 |
Piezoelectric MEMS energy harvesting |
Kobe Univ1 ○Isaku Kanno1 |
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3 |
Materials Science Approach to Improve the Performance of Piezoelectric Vibration Energy Harvester |
Osaka Pref. Univ.1, Tech. Res. Inst. Osaka Pref.2 ○Takeshi Yoshimura1, Syuichi Murakami2, Hiroki Miyabuchi1, Yusaku Kawahara1, Norifumi Fujimura1 |
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4 |
Characteristics of Piezoelectric Power Generation using PVDF Film and Its Application |
Tokyo Univ. of Sci.1, Kobayashi Inst. Phys. Res.2 ○Takashi Nakajima1, Hideki Sugiyama1, Takeo Furukawa2, Soichiro Okamura1 |
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5 |
Pyroelectric energy harvesting and electrocaloric effect of ferroelectric materials |
Shonan Inst. Tech.1 ○Hiroshi Maiwa1 |
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Break 15:45〜16:00 |
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6 |
Applications of Surface Potential Generated by Pyroelectric and Photogalvanic Effects |
National Institute for Materials Science1, SWING Ltd.2, RIKEN3 ○Kenji Kitamura1,2, Shunji Takekawa1,2, Hideki Hatano1,2, Oleg Lochev3 |
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7 |
Polarization-induced photovoltaic effects in Nd-doped BiFeO3 ferroelectric thin films |
College of Sci. & Eng. Kanazawa Univ.1, Grad. School of Natural Sci. & Tech. Kanazawa Univ.2 ○Shuhei Yamazaki1, Yohei Ukai2, Takeshi Kawae1, Akiharu Morimoto1 |
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8 |
Photo-induced Current of Hexagonal YMnO3 Films |
Osaka prefecture Univ.1 ○(M1)Yuta Okumura1, Hiroki Yukawa1, Atsushi Ashida1, Takeshi Yoshimura1, Norifumi Fujimura1 |
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9 |
Photo-induced phenomena of YbFe2O4 epitaxial thin films |
Graduate School of Engineering, Osaka Prefecture Univ.1 ○(M2)Hiroki Yukawa1, Takeshi Yoshimura1, Atsushi Ashida1, Norifumi Fujimura1 |
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10 |
Possible Application of Electronic Ferroelectric Material for Energy Devises |
Grad. Sch. of Sci. and Eng., Okayama Univ.1 ○Naoshi Ikeda1, Tomoko Nagata1, Takashi Kambe1, Jun Kano1 |
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11 |
Closing Talk |
JAIST1 ○Susumu Horita1 |
薄膜シリコン太陽電池と有機薄膜太陽電池のサイエンス |
March 16 9:00〜12:00 |
16a-F7 - 1〜7 |
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1 |
Introductory of the Symposium - Science of Thin Film Silicon Solar Cells and Organic Thin Film Solar Cells - |
Gifu Univ.1 ○Takashi Itoh1 |
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2 |
Evolution of organic thin-film solar cells, and optical and electronic properties of organic semiconductors |
Osaka Pref. Univ.1 ○Hiroyoshi Naito1 |
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3 |
Electronic transport: amorphous and microcrystalline silicons |
Gifu Univ.1, Nagoya Indust. Sci. Research Inst.2 ○Koichi Shimakawa1,2 |
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Break 10:05〜10:25 |
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4 |
Introduction to Silicon Thin-Film Solar Cells - Present status and technological opportunity |
Tokyo Tech1 ○Makoto Konagai1 |
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5 |
Ultrafast dynamics of excitons and charged carriers in organic solar cells |
AIST1, Nihon Univ.2 ○Akihiro Furube1, Steffan Cook1, Ryuzi Katoh2, Hiroki Mitsuta1, Tetsuhiko Miyadera1, Yuji Yoshida1 |
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6 |
Microscopic characterization of charge-carrier trapping mechanisms in organic thin-film solar cells by light-induced ESR |
Univ. of Tsukuba1, JST PRESTO2 ○Kazuhiro Marumoto1,2 |
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7 |
Closing Talk |
AIST1 ○Yuji Yoshida1 |
田中昭二先生追悼シンポジウム「高温超伝導研究開発の25年と将来 - 発見前夜から超伝導デバイス・線材開発まで - 」 |
March 15 9:00〜12:00 |
15a-B7 - 1〜4 |
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1 |
Foresight and strong wish of Prof. Shoji Tanaka:investigation into high temperature superconductivity based on the concept of semi-condutor |
JST1 ○Koichi Kitazawa1 |
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2 |
Looking back the source of high temperature superconductivity R&D, Professor Shoji Tanaka's Laboratory |
TEPCO1 ○Hideo Ishii1 |
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Break 10:20〜10:40 |
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3 |
Challenges to realize room-temperature superconductivity and superconducting LSI |
SRL-ISTEC1 ○Keiichi Tanabe1 |
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4 |
Future Prospect of High Temperature Superconductors; Processing of High Quality Large Single Crystals and Coated Conductors |
ISTEC ○Yuh Shiohara1 |
Frontier of next-generation devices and meterials in the post-scaling era |
March 15 9:00〜17:45 |
15a-F6 - 1〜6 |
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1 |
Post-scaling Age opened up through Basic Research |
JST1 ○Katsuaki Sato1 |
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2 |
Ge-based Electronic-Photonic Integrated Circuits for On-chip Optical Interconnection |
Univ. Tokyo1, JST-CREST2 ○Mitsuru Takenaka1,2, Shinichi Takagi1 |
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3 |
Charge/spin/photon hybrid single-electron device based on quantum dot |
Nanoquine Univ. of Tokyo1, IIS, Univ. of Tokyo2, PRESTO-JST3, Sophia Univ.4 ○Toshihiro Nakaoka1,2,3,4, Yugo Tamura1,2, Katsuyuki Watanabe1,2, Naoto Kumagai1,2, Toshiyuki Miyazawa1,2, Yasutomo Ota1,2, Satoshi Iwamoto1,2, Yasuhiko Arakawa1,2 |
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4 |
Quantum information devices by single paramagnetic color center in wide-bandgap semiconductor |
Osaka Univ1, PRESTO2 ○Norikazu Mizuochi1,2 |
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5 |
Creation of an optically-generated-flux-quantum nano-device with superconducting nanobridges |
Osaka Univ.1, PRESTO-JST2 ○Iwao Kawayama1,2 |
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6 |
FIRST Program:Development of Core Technologies for Green Nanoelectronics |
AIST1 ○Naoki Yokoyama1 |
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Lunch 11:45〜13:00 |
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15p-F6 - 1〜9 |
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1 |
Recent Progress on Materials Research for Nitride Semiconductor Frontiers |
Ritsumeikan Univ.1, Kogakuin Univ.2, Ritsumeikan Univ.3, Seoul National Univ.4 ○Yasushi Nanishi1,4, Tomohiro Yamaguchi2, Ke Wang1, Tsutomu Arai3, Yoon Euijoon4 |
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2 |
Novel optical functionality in widegap polar semiconductor photonic nanostructures |
IMR, Tohoku Univ.1, JST PRESTO2, Tokyo Univ.3 ○Ryuji Katayama1,2, Takashi Matsuoka1, Yujiro Fukuhara3, Masahiro Kakuda3, Shigeyuki Kuboya3, Kentaro Onabe3 |
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3 |
Fabrication of III-nitride substrate for optoelectronic integrated circuit and control of its heat transfer -Development of solid source AlN solution growth technique- |
RIAM, Kyushu Univ.1, JST PRESTO2 ○Yoshihiro Kangawa1, 2 |
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4 |
New functionalities at the interfaces of wide-gap oxides |
MSL, Tokyo Tech1, JST2 ○Tomofumi Susaki1,2 |
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Break 15:10〜15:25 |
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▲ |
5 |
Magnetoresistance and spin-transfer torque in magnetic tunnel junctions |
AIST1, IEEE Distinguished Lecturer2 ○Shinji Yuasa1,2, Kay Yakushiji1, Hitoshi Kubota1, Akio Fukushima1, Koji Ando1 |
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6 |
Development of single-electron spin transistors with silicon-based nanostructures |
Kyushu Univ.1, PRESTO-JST2 ○Kohei Hamaya1,2 |
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7 |
Wide-gap ferromagnetic semiconductor devices |
Univ. Tokyo1, JST-PRESTO2 ○Tomoteru Fukumura1,2 |
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8 |
Development of materials for thermoelectronics |
University of Tsukuba1, JST PRESTO2 ○Wataru Kobayashi1,2 |
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9 |
Closing Talk |
Tokyo Tech1 ○Shunri Oda1 |
Energy and environmental professional group promoted"Energy innovative technology for Green Society - from solar energy application to energy system -" |
March 15 9:00〜17:55 |
15a-E2 - 1〜7 |
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1 |
Introductory talk: "Energy innovative technology for Green Society" |
RCAST, Univ. of Tokyo1 ○Katsushi Fujii1 |
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2 |
Issues and the Prospect of Japan's Energy Demand and Supply after the Great East Japan Earth Earthquake |
生産技術研究所1 ○Kazuhiko Ogimoto1 |
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3 |
Advanced Energy Network for Smart Community |
NTT1 ○Morito Matsuoka1 |
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4 |
Smart Community Projects in NEDO |
New Energy and industrial Technology Development Organization1 ○Satoshi Morozumi1 |
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Break 10:35〜10:50 |
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5 |
Virtual Integration Technology of Distributed Energy Storages |
NEC1 ○Koji Kudo1, Hitoshi Yano1, Hisato Sakuma1, Yuma Iwasaki1 |
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6 |
Green Innovation for changing life style |
NEC1 ○Shuichi Tahara1 |
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7 |
Decentralized Energy Management for Mass Deployment of PV Systems |
The Univ. of Tokyo1 ○Takashi Ikegami1 |
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Lunch 12:05〜13:30 |
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15p-E2 - 1〜9 |
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1 |
Concentrator High-efficiency Solar Power Generation |
Univ. Tokyo1 ○Masakazu Sugiyama1 |
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2 |
Concentrating Solar Power (CSP) Technology |
JGC CORPORATION1 ○Yuji Saito1 |
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3 |
R&D on Solar Thermochemical Fuels Production |
Niigata Univ.1 ○Tatsuya Kodama1 |
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4 |
Prospects of power transmission by superconducting cables |
Univ. of Tokyo1 ○Jun-ichi Shimoyama1 |
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Break 15:30〜15:45 |
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5 |
Advanced technologies for Photovoltaic systems |
National Institute of Advanced Industrial Science and Technology1 ○Takashi OOZEKI1 |
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6 |
Issues of Large Penetration of Renewable Energy Source Generation for Electrical Power System |
The University of Tokyo1 ○Jumpei Baba1 |
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7 |
Small Energy and Its Effective Use |
Tohoku Univ.1 ○Kazuyuki Tohji1 |
|
8 |
The Potential and Future of Smart Communities |
Nikkei Business Publications,Inc.1 ○Kenji Kaneko1 |
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9 |
Closing Remarks |
Tokai Univ. Dept.Human Development1 ○Haru-Hisa Uchida1 |
中性子・X線のコラボレーションによる薄膜・多層膜の埋もれた界面の解析の新しい展開 |
March 15 9:30〜15:15 |
15a-B8 - 1〜6 |
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1 |
Requirement of nano scale analysis and solution for varied interfaces |
NIMS1, Meiji Univ.2 ○Toyohiro Chikyow1, Takahiro Nagata1, Toshihide Nabatame1, Kazuyoshi Kobashi1,2, Naruhiro Ikeno1,2, Atsushi Ogura2 |
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2 |
Theoretical Study on Buried Interface: Structure of Liquid near Solid Surface |
Kyoto Univ.1 ○Masahiro Kinoshita1 |
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3 |
New Proposal on X-ray Reflectivity Analysis for buried interfaces |
Kobe Univ.1 ○Yoshikazu Fujii1 |
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Break 10:45〜11:00 |
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4 |
Quick Three-Dimensional Reciprocal Space Mapping with a Simultaneous Multi-Wavelength Dispersive Mode |
ISSP1, Tokyo Gakugei Univ.2, KEK-PF3 ○Tetsuroh Shirasawa1, Etsuo Arakawa2, Wolfgang Voegeli3, Toshio Takahashi1, Tadashi Matsushita3 |
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5 |
Observation of non-Brownian motion of nanoparticles grafted with polymer brush by X-ray Photon Correlation Spectroscopy |
JST, ERATO1, RIKEN/SPring-8 Center2, Kyoto Inst. Tech.3 ○Taiki Hoshino1,2, Moriya Kikuchi1,2, Daiki Murakami1,2, Yoshiko Harada1,2, Koji Mitamura1,2, Kiminori Ito2, Yoshihito Tanaka2, Sono Sasaki2,3, Masaki Takata2, Hiroshi Jinnai1,2, Atsushi Takahara1,2 |
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6 |
Current status of the new polarized neutron reflectometer (SHARAKU) at J-PARC, and prospects for study on multilayers |
J-PARC Center1, JAEA2 ○Masato Kubota1,2 |
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Lunch 12:00〜13:00 |
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15p-B8 - 1〜7 |
▲ |
1 |
Neutron and X-ray reflection tomography: new and complementary tools for surface and interface imaging of thin films and multilayer materials |
University of Tsukuba1, National Institute for Materials Science2 ○Vallerie Ann Samson1, Mari Misuzawa2, Kenji Sakurai1,2 |
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2 |
Ultra-small-angle X-ray and neutron imaging using gratings - a promising application of complementary use of X-rays and neutrons |
GSFS, Univ. Tokyo1 ○Wataru Yashiro1 |
|
3 |
Quick X-ray Reflectivity Study on Poly Vinyl Acetate Thin Film during Glass Transition |
CROSS1, NIMS2 ○Mari Mizusawa1, Kenji Sakurai2 |
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4 |
Organic heterostructures studied by X-ray scattering techniques |
Iwate Univ.1, Chiba Univ.2, Uni. Tuebingen3 ○Takuya Hosokai1, Alexander Hinderhofer2, Alexander Gerlach3, Frank Schreiber3 |
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5 |
Measurement of X-ray Reflectivity of a Pd-based Amorphous Alloy Thin Film on Crystallization |
Tohoku Univ.1, Gunma Univ.2 ○Tokujiro Yamamoto1, Kouichi Hayashi1, Kosuke Suzuki2, Masahisa Ito2 |
△ |
6 |
Orbital/spin ordering in Mn-oxide superlattice thin films observed by resonant soft x-ray scattering |
Univ. of Tokyo1, Univ. of British Columbia2, IFW Dresden3, HZB4, Canadian Light Source5, Univ. of Waterloo6, Swiss Light Source7, RIKEN CMRG8 ○(PC)Hiroki Wadati1,2, Geck Jochen3, Schierle Enrico4, Sutarto Ronny2, He Feizhou5, Hawthorn David6, Garganourakis Marios7, Scagnoli Valerio7, Staub Urs7, Masao Nakamura8, Masashi Kawasaki1,8, Yoshinori Tokura1,8, George Sawatzky2 |
|
7 |
Study of magnetism in manganite superlattice by resonant soft x-ray scattering |
JAEA1, J-PARC2, AIST3, KEK4 ○Masato Kubota1,2, Hiroyuki Yamada3, Jun Okamoto4, Yuuichi Yamasaki4, Hironori Nakao4, Youichi Murakami4, Akihito Sawa3 |
Can Silicide Thermoelectric Materials be the Answer to Waste Heat Power Generation? 〜Weighing of present performance and topics for development〜 |
March 15 9:30〜16:50 |
15a-B2 - 1〜5 |
|
1 |
Opening Talk of the Symposium |
Ibaraki Univ.1 ○Haruhiko Udono1 |
|
2 |
Direct thermal-to-electric power generation by silicide materials |
Tokyo Univ. of Science1 ○Tsutomu Iida1 |
|
3 |
Enhanced Figure of Merit of a Porous Thin Film |
Life BEANS Kyushu1, Kyushu Inst. of Tech.2 ○Koji Miyazaki1,2 |
|
4 |
Atomic Structure and Thermoelectric Properties of PBET Interfaces in Chimney-Ladder Silicides |
Kyoto Univ.1, Univ. Hyogo2, Kobe Univ.3 ○Norihiko Okamoto1, Hiroki Adachi2, Kyosuke Kishida1, Katsushi Tanaka3, Haruyuki Inui1 |
|
5 |
A novel method for synthesis of thermoelectric silicides using a Na flux |
IMRAM Tohoku Univ.1 ○Takahiro Yamada1 |
|
|
Lunch 11:40〜13:30 |
|
15p-B2 - 1〜9 |
|
1 |
Guiding principle for practical thermoelectric materials using information about fine electronic structure and phonon dispersion |
Nagoya Univ.1, JST-PRESTO2 ○Tsunehiro Takeuchi1,2 |
|
2 |
Zintl phase thermoelectric semiconductor, Sr0.3Mg2Si0.7 |
Dep.Apph.Phys.,Tohoku Univ.1 ○Tsuyoshi Kajitani1, Kei Hayashi1, Toru Ueno1, Shouta Kikuchi1, Masataka Kubouchi1, Yuzuru Miyazaki1 |
|
3 |
Thermoelectric properties of a highly functional novel silicide with high temperature oxidation resistance |
NIMS1, Moscow State Univ.2 ○Takao Mori1, Kirsanova Maria1,2, Zaikina Yulia2, Shevelkov Andrei2 |
△ |
4 |
Effect of Cr-substitution on the p-type thermoelectric silicide MnSiγ (γ〜1.7) |
Dept. Appl. Phys., Tohoku Univ.1, IMR, Tohoku Univ.2 ○(M2)Yuta Kikuchi1, Yuzuru Miyazaki1, Yoshitsugu Saito1, Kei Hayashi1, Kunio Yubuta2, Tsuyoshi Kajitani1 |
|
5 |
Effects of element substitution in thermoelectric n-type Mn3Si4Al3 |
AIST1, Hokkaido Univ.2, Nagoya Univ.3, JST CREST4 ○Ryoji Funahashi1,4, Yoko Matsumura1,4, Hideaki Tanaka1, Tomonari Takeuchi1, Ryosuke Suzuki2,4, Yifeng Wang3,4, Wataru Norimatsu3,4, Kunihito Koumoto3,4 |
|
|
Break 15:00〜15:15 |
|
|
6 |
Valence Electron Control of Thermoelectric Higher Manganese Silicides |
Tohoku Univ.1 ○Yuzuru Miyazaki1 |
|
7 |
Syntheses of Silicide-based Elements for Thermoelectric Power Generation and Improvement of Their Performance |
EcoTopia Science Inst., Nagoya Univ.1 ○Takashi Itoh1 |
|
8 |
The improved performance of Mg2(Si,Sn) system thermoelectric semiconductor |
National Institute for Materials Science1 ○Yukihiro Isoda1 |
|
9 |
Closing remarks: Outlook for Silicide Thermoelectrics |
NIMS1 ○Takao Mori1 |
窒化物半導体における特異構造の理解と制御 |
March 15 9:30〜18:00 |
15a-F11 - 1〜8 |
|
1 |
Understanding and Control of Singularity Structure in Nitride Semiconductors (Introduction) |
Mie University1 ○Kazumasa Hiramatsu1 |
|
2 |
Singular Nanostructures of Nitride Semiconductor and Device Applications |
Sophia Univ.1, Sophia Nanotech. Research Center2 ○Katsumi Kishino1,2, Kazuhiro Ema1,2, Akihiko Kikuchi1,2, Ichirou Nomura1,2 |
|
3 |
Emission wavelength dependence of internal quantum efficiency in InGaN nanowires |
Toyota National College of Technology1, Yamaguchi Univ.2, Nagoya Univ.3 ○Hideaki Murotani1, Hiroya Andoh1, Takehiko Tsukamoto1, Touko Sugiura1, Yoichi Yamada2, Takuya Tabata3, Yoshio Honda3, Masahito Yamaguchi3, Hiroshi Amano3 |
|
4 |
Dependence of light-extraction efficiency of InGaN based Light-Emitting Diodes on refractive index of cone-patterned mask layers |
Yamaguchi Univ.1 ○(M1)Seita Miyoshi1, Akimi Uchida1, Keisuke Yamane1, Narihito Okada1, Kazuyuki Tadatomo1 |
|
|
Break 10:40〜10:55 |
|
|
5 |
AlGaN quantum dot-like carrier-localization structures formed on mixed-polar AlN |
Ritsumeikan Univ. R-GIRO1 ○Misaichi Takeuchi1, Masahito Kurouchi1, EunSook Hwang1, Yoshinobu Aoyagi1 |
△ |
6 |
Unification of rotational domains of LPE-AlN grown on nitrided sapphire substrate |
Tohoku Univ.1, Sumitomo Metal Mining Co. Ltd.2 ○Masayoshi Adachi1, Mari Takasugi1, Masashi Sugiyama2, Akikazu Tanaka2, Hiroyuki Fukuyama1 |
△ |
7 |
TEM Observation of 4H-AlN/4H-GaN Superlattice Grown on 4H-SiC (1120) |
Kyoto Univ.1, PESEC2 ○Mitsuaki Kaneko1, Shunsaku Ueta1, Hironori Okumura1, Tsunenobu Kimoto1,2, Jun Suda1 |
|
8 |
Approaches for novel nitride emitting devices by atomic-layer heterostructure control |
RIKEN1 ○Hideki Hirayama1 |
|
|
Lunch 12:10〜13:30 |
|
15p-F11 - 1〜11 |
|
1 |
Development of High-In Content InGaN |
Nagoya Univ., ARC1 ○Hiroshi Amano1 |
△ |
2 |
Observation of GaInN relaxation mechanism using in situ X-ray diffraction monitoring during MOVPE growth |
Fac.Sci & Technol., Meijo Univ.1, Akasaki Inst. Nagoya Univ.2 ○(P)Daisuke Iida1, Toru Sugiyama1, Yasunari Kondo1, Mihoko Sowa1, Hiroyuki Matsubara1, Motoaki Iwaya1, Tetsuya Takeuchi1, Satoshi Kamiyama1, Isamu Akasaki1,2 |
|
3 |
Development of in-situ X-ray measurement system for observation of nitride-semiconductor crystal growth |
Nagoya Univ.1 ○Masao Tabuchi1, Masanori Masuda1, Kota Yasunishi1, Guangxu Ju1, Hiroyuki Futaki1, Yasuhiro Mori1, Shingo Fuchi1, Yoshikazu Takeda1 |
|
4 |
Reduction of strain and dislocation using voids in AlN grown by HVPE |
Mie Univ.1 ○Hideto Miyake1, Kazumasa Hiramatsu1 |
|
5 |
Introduction of Singularity Structure by Nonequilibrium Pulsed Excitation Control |
The Univrsity of Tokyo1, JST-CREST2 ○Hiroshi Fujioka1,2 |
|
|
Break 15:30〜15:45 |
|
△ |
6 |
Dislocation blocking process in {11-22}GaN growth on r-plane patterned sapphire substrates |
Tokuyama Corp.1, Grad. School of Sci. & Eng., Yamaguchi Univ.2 ○Hiroshi Furuya1,2, Narihito Okada2, Kazuyuki Tadatomo2 |
|
7 |
Ab initio-based study for initial nitridation processes on sapphire substrate |
Mie Univ.1 ○Toru Akiyama1, Yasutaka Saito1, Kohji Nakamura1, Tomonori Ito1 |
△ |
8 |
Lattice tilt and slip in m-plane InGaN/GaN heterostructure |
Panasonic Co.1, Japan Synchrotron Radiation Research Inst.2 ○Shunji Yoshida1, Toshiya Yokogawa1, Yasuhiko Imai2, Shigeru Kimura2 |
|
9 |
Dynamics of localization, radiative and nonradiative recombination processes assessed by scanning near-field optical microscopy |
Kyoto Univ.1 ○Yoichi Kawakami1, Mitsuru Funato1, Akio Kaneta1 |
|
10 |
A femtosecond pulsed electron beam for characterizing wide bandgap semiconductors |
Tohoku Univ.1, Univ. Tsukuba2 ○Shigefusa Chichibu1, Kouji Hazu1, Youichi Ishikawa1, Kentaro Furusawa1, Akira Uedono2 |
|
11 |
Characteristic properties of GaN-based hetero-interface structures |
Hokkaido Univ.1 ○Tamotsu Hashizume1 |
JSAP-KPS Joint Symposium ”Japan-Korea Symposium on Photovoltaics” |
March 15 13:00〜16:25 ENGLISH SESSION |
15p-A1 - 1〜10 |
▲ |
1 |
Opening Remarks |
Tokyo Tech1 ○Makoto Konagai1 |
▲ |
2 |
Introductory Talk(5分) |
JAIST1 ○Eisuke Tokumitsu1 |
▲ |
3 |
Development of flexible see-through amorphous silicon based pin-type thin-film solar cells using imprint, oblique deposition, and dry etching |
Korea Advanced Institute of Science and Technology1, Korea Advanced Institute of Science and Technology2 ○Koeng Su Lim1, Jin-Wan Jeon1, Yunho Hong1, JungHo Jin2, Byeong-Soo Bae2 |
▲ |
4 |
Cristal Issues for High-Efficiency CIGS Solar Cells and Modules |
AIST1, Kagoshima Univ.2, Tsukuba Univ.3, TUT4 ○Shigeru Niki1, Shogo Ishizuka1, Hironori Komaki1, Shigenori Furue1, Hajime Shibata1, Koji Matsubara1, Akimasa Yamada1, Norio Terada2, Takeaki Sakurai3, Masanobu Izaki4, Katsuhiro Akimoto3 |
▲ |
5 |
Optical Properties of InAs/GaAs Quantum Dot Solar Cells |
Yeungnam Univ.1, Korea Research Institute of Standards and Science2, Chonbuk National Univ3 ○Jong Su Kim1, Im Sik Han1, Seung Hyun Lee1, Chang Won Sohn1, Jae-Du Ha1, Sang Jo Lee1, Ryan P Smith1, Sang Jun Lee2, Sam Kyu Noh2, Jin Soo Kim3, Hyonkwang Choi4, Jae-Young Leem4 |
▲ |
6 |
Application of Quantum Nanostructures to High-Efficiency Solar Cells |
Saitama Univ.1, RCAST The Univ. of Tokyo2 ○Shuhei Yagi1, Yoshitaka Okada2 |
|
|
Break 14:50〜15:05 |
|
▲ |
7 |
Broadband antireflective subwavelength structures for photovoltaic device applications |
Kyung Hee University1 ○Jae Su Yu1 |
|
8 |
Highly Efficient Dye-sensitized solar Cells |
National Institute for Materials Science1 ○Liyuan Han1 |
▲ |
9 |
Organic-nanoparticle hybrid solar cells |
Seoul National Univ.1 ○Changhee Lee1 |
▲ |
10 |
Closing Remarks |
Tokyo Tech1 ○Akira Yamada1 |
空間多重光ファイバ伝送と光インターコネクションの最新技術動向 |
March 15 13:00〜16:45 |
15p-F9 - 1〜7 |
|
1 |
Potential and Challenge of SDM Fiber-optic Transmission and Optical Interconnect |
NICT1 ○Takeshi Kamiya1 |
|
2 |
Huge capacity transmission system and LG-MDM technology based on multi-core fibers |
National Inst. of information and communications technology1, Hokkaido Univ.2 ○Yoshinari Awaji1, Jun Sakaguchi1, Naoya Wada1, Yasunori Toda2 |
|
3 |
Multi-core optical fiber technologies |
Sumitomo Electric Industries1 ○Eisuke Sasaoka1 |
|
4 |
Multicore erbium doped fiber amplifier |
OFS Laboratories ○Kazi S. Abedin1 |
|
|
Break 15:00〜15:15 |
|
|
5 |
Spatial mode excitation and separation technologies for mode division multiplexing |
Hokkaido Univ.1, Yamanashi Univ.2 ○Atsushi Okamoto1, Yuta Wakayama1, Kohei Aoki1, Satoshi Honma2, Akihisa Tomita1, Takuya Oda1, Daiki Soma1 |
|
6 |
Optical Inter-connect Module Technology |
NEC Yamanashi1, PETRA2 ○Takara Sugimoto1,2, Taro Kaneko1,2, Masahiko Namiwaka1,2, Masaaki Nido1,2 |
|
7 |
World's 5th fastest Supercomputer "TSUBAME2.0" - Commodity Interconnect Configuration and Performance Analysis |
Hewlett-Packard Japan, Ltd.1 ○Takao Hatazaki1 |
Semiconductor application of UV nanoimprint |
March 15 13:00〜17:00 |
15p-A4 - 1〜7 |
|
1 |
Semiconductor application in UV nanoimprint |
Univ. of Hyogo1, JST-CREST2 ○shinji matsui1,2 |
|
2 |
UV Imprint Lithography System for Semiconductor Application |
Molecular Imprints, Inc.1 ○Hideyuki Wada1 |
|
3 |
Mold for UV nanoimprint |
Dai Nippon Printing Co., Ltd.1 ○Naoya Hayashi1 |
|
4 |
UV nanoimprint using condensable gas PFP |
AIST1 ○Hiroshi Hiroshima1 |
|
|
Break 15:00〜15:15 |
|
|
5 |
Study of Demolding in UV nanoimprinting |
Univ. of Hyogo1, JST-CREST2 ○Shuso Iyoshi1,2, Makoto Okada1,2, Shinji Matsui1,2 |
|
6 |
Kinetics and simulation in UV-NIL |
Osaka. Pref. Univ.1, JST-CREST2 ○Yoshihiko Hirai1,2 |
|
7 |
Surface Science in Ultraviolet Nanoimprinting |
IMRAM, Tohoku Univ.1 ○Masaru Nakagawa1 |
New development in 3D atomic imaging techniques |
March 15 13:00〜17:10 |
15p-F3 - 1〜10 |
|
1 |
Introductory Talk |
JAIST ○Hiroshi Daimon 1 |
|
2 |
Element-, layer-, and site-specific property analysis by photoelectron diffraction spectroscopy and stereograph of atomic arrangements |
NAIST1, JASRI2 ○Fumihiko Matsui1, Naoyuki Maejima1, Hirosuke Matsui1, Tomohiro Matsushita2, Hiroshi Daimon1 |
|
3 |
Applications of X-ray fluorescence holography to thin film samples |
金属材料l研究所1 ○Koichi Hayashi1 |
|
4 |
Electron Diffractive Imaging |
Hokkaido Univ.1 ○Kazutoshi Gohara1 |
▲ |
5 |
3D local structure analysis of relaxor ferroelectrics by X-ray fluorescence holography |
JAEA1, IMR Tohoku Univ.2, Hiroshima City Univ3, USTB4, SFU5, Hiroshima Inst. Tech.6, Univ. of Hyogo7 ○Wen Hu1, Kouichi Hayashi2, Naohisa Happo3, Kenji Ohwada1, Jun Chen4, Zuo-Guang Ye5, Shinya Hosokawa6, Masamitu Takahasi1,7 |
|
|
Break 14:55〜15:10 |
|
|
6 |
Atomic Imaging of Surfaces and Interfaces with X-Ray CTR Scattering |
ISSP, Univ. of Tokyo1 ○Toshio Takahashi1 |
|
7 |
An advanced atomic image reconstruction for photoelectron holography and internal -detector electron holography |
JASRI/SPring-81, NAIST2, HORIBA Limited3, Tohoku univ.4 ○Tomohiro Matsushita1, Fumihiko Matsui2, Hiroshi Daimon2, Akio Uesaka3, Kouichi Hayashi4 |
|
8 |
Complementary experiment using photoelectron holography and X-ray fluorescence holography: Measurement of ferromagnetic semiconductor thin film |
Hirishima City Univ.1 ○Naohisa Happo1 |
|
9 |
Measurement and analysis methods for fluorescent X-ray hologram |
SPpring-8/JASRI1, Hiroshima City Univ.2, Hiroshima Tech Univ.3, Tohoku Univ.4 ○Kyoko Okada1, Tomohiro Matsushita1, Yoshitaka Yoda1, Toru Ohata1, Yoshiharu Sakurai1, Naohisa Happo2, Shinya Hosokawa3, Kouichi Hayashi4 |
|
10 |
Mn substitution site analysis of ZnSnAs2:Mn by X-Ray Fluorescence Holography method |
Nagaoka Univ. of Tech.1, Tohoku Univ.2, Hiroshima city Univ.3, Hiroshima Inst. of Tech.4, JAEA5, JASRI6 ○(M2)Keitaro Yamagami1, Kouichi Hayashi2, Naotaka Uchitomi1, Naohisa Happo3, Yuuki Takehara3, Shinya Hosokawa4, Wen Hu5, Motohiro Suzuki6 |
Recent Progress in Secondary Ion Mass Spectrometery |
March 15 13:00〜17:15 |
15p-B11 - 1〜10 |
|
1 |
Observation of presolar grains by isotope imaging |
Hokkaido Univ.1 ○Hisayoshi Yurimoto1 |
|
2 |
Development of Laser Ionization Mass Nanoscope |
Osaka Univ.1 ○morio ishihara1 |
|
3 |
Highly sensitive- and quantitative-surface elemental analysis by resonance multi-photon ionization SNMS technique |
Nippon Steel Corp., Adv. Technol. Res. Labs.1 ○Shunichi Hayashi1, Suguru Nishinomiya1, Naoyoshi Kubota1 |
|
4 |
Shave-off analysis of nano-scale objects |
ESC, Univ. Tokyo1, IIS, Univ. Tokyo2 ○Masanori Owari1,2 |
|
5 |
Sectioning and analysis of fine carbon fibers using FIB-TOF-SIMS |
Kogakuin Univ.1, TOYAMA Co., LTD2, Kyushu Univ.3 ○(PC)Miwa Ohnishi1, Takeharu Ishikawa1,2, Jin Miyawaki3, Seong-Ho Yoon3, Isao Mochida3, Tetsuo Sakamoto1 |
|
|
Break 15:15〜15:30 |
|
|
6 |
Bio-SIMS with Highly Excited Primary Beam |
Kyoto Univ.1, JST-CREST2 ○Jiro Matsuo1,2 |
|
7 |
Development of a high-brightness charged droplet beam source for SIMS |
Univ. of Yamanashi, Medicine and Engineering1, Univ. of Yamanashi, Clean Energy Res. Center2 ○Satoshi Ninomiya1, Lee Chuin Chen1, Hiroaki Suzuki2, Yuji Sakai2, Kenzo Hiraoka2 |
|
8 |
Development of an ion beam source for Cluster SIMS using vacuum electrospray of an ionic liquid |
AIST1 ○Yukio Fujiwara1, Naoki Saito1, Hidehiko Nonaka1, Shingo Ichimura1 |
|
9 |
Applications using TOF-SIMS with gas cluster ion beam |
ULVAC-PHI1 ○Takuya Miyayama1, Noriaki Sanada1 |
|
10 |
Dynamic Legacy in the Development of Secondary Ion Mass Spectrometry |
Osaka University「Osaka Univ.」1 ○Ryuihchi Shimizu1 |
nano-strain electronics-Novel devices and high-resolution characterization- |
March 15 13:00〜17:15 |
15p-F10 - 1〜9 |
|
1 |
Introductory Talk |
Miyazaki Univ.1 ○ Hidetoshi Suzuki1 |
|
2 |
Strain and Defects in Semiconductors |
RIAM, Kyushu Univ.1 ○Koichi Kakimoto1, Bing Gao1, Satoshi Nakano1, Yoshihiro Kangawa1 |
|
3 |
X-ray microdiffraction analysis of microstructure and strain in local regions of semiconductor materials |
Osaka Univ.1, JASRI/SPring-82 ○Akira Sakai1, Jun Kikkawa1, Yoshiaki Nakamura1, Yasuhiko Imai2, Osami Sakata2, Shigeru Kimura2 |
|
4 |
Self-Formation of Ultrahigh Density InAs Quantum Dots by Nano-Strain Control and Their Device Applications |
Univ. of Electro-Communications1 ○Koichi Yamaguchi1 |
|
5 |
Observation of Strains in Semiconductor Thin-Film Crystals |
KASTEC, Kyushu Univ.1, ASEM, Kyushu Univ.2 ○Noriyuki Kuwano1, Takaaki Kuwahara2 |
|
|
Break 15:05〜15:20 |
|
|
6 |
Influence of lattice strain on semiconductors and devices |
Kanazawa Institute of Technology1 ○Osamu Ueda1 |
|
7 |
New evaluation method for tiny strain inside crystals using X-ray Berry-Phase effect |
Riken SPring-8 Center1 ○Yoshiki Kohmura1, Kei Sawada1, Tetsuya Ishikawa1 |
|
8 |
In situ synchrotron X-ray diffraction study of nanometer-scale strains |
JAEA1 ○Masamitu Takahasi1 |
|
9 |
Analysis of Semiconductor Device with TEM/STEM |
JEOL Ltd.1 ○Noriaki Endo1, Eiji Okunishi1, Yukihito Kondo1 |
Recent Progress and Future Prospect of Electromagnetic Metamaterials |
March 15 13:00〜17:30 |
15p-E3 - 1〜9 |
|
1 |
Introductory Talk : Recent Progress and Future Prospect of Electromagnetic Metamaterials |
Osaka Univ.1 ○Masanori Hangyo1 |
|
2 |
Fundamentals and Applications of Periodic Microwave Metamaterials |
Yamaguchi Univ.1 ○Atsushi Sanada1 |
|
3 |
Fabrication of three-dimensional resonant metamaterials |
RIKEN1, Hokkaido Univ.2 ○Takuo Tanaka1, 2 |
|
4 |
Control of electromagnetic waves using coupled-resonator-based metamaterial |
Kyoto Univ.1 ○Toshihiro Nakanishi1, Yasuhiro Tamayama1, Masao Kitano1 |
|
5 |
Analysis of negative index media with Fourier modal method |
Ehime Univ.1 ○Hiroyuki Ichikawa1 |
|
|
Break 15:15〜15:30 |
|
|
6 |
Vertical Ring Resonator Metamaterial Fabrication by Nanoimprint Oblique Deposition |
Asahi Glass Research Center1 ○Kenji Kitaoka1, Hiroyasu MIyazawa1, Yasuhide Kawaguchi1, Masafumi Akita1 |
|
7 |
Simulation of metamaterials with periodic FMM |
Kyoto Univ.1 ○Naoshi Nishimura1 |
|
8 |
Fabrication and Evaluation of Planar, Streo, and 3D Metamaterials |
Osaka Univ.1, Shinshu Univ.2 ○Masanori Hangyo1, Keisuke Takano1, Fumiaki Miyamaru2 |
|
9 |
Development of Optical Metamaterials by Plasmonic Resonators |
NIMS1 Bongseok Choi1, Takeshi Kasaya1, Masanobu Iwanaga1, Hideki Miyazaki1, Yoshimasa Sugimoto1, ○Kazuaki Sakoda1 |
Polarization-reversal technology pioneering future light control |
March 15 13:00〜17:30 |
15p-F4 - 1〜9 |
|
1 |
Introductry talk |
Waseda Univ.1 ○Yoshiaki Uesu1 |
|
2 |
Evolution and Problems of PPLN Devices |
Waseda Univ.1 ○Hirochika Nakajima1 |
|
3 |
Exploring new optical quantum science using periodically polled photonic devices |
電子科学研究所1, 産業科学研究所2 ○Takeuchi Shigeki1,2 |
|
|
Break 14:50〜15:10 |
|
|
4 |
Lightwave control by microwave signal using EO devices with polarization reversal |
院基礎工1 ○Hiroshi Murata1 |
|
5 |
Polarity-reversed crystalline quartz for wavelength conversion to vacuum-ultraviolet spectrum |
National Institute for Materials Science1, Nikon Corp.2, Nidek Co., Ltd.3 ○Sunao Kurimura1, Masaki Harada1,2, Ken-Ichi Muramatsu2, Motoi Ueda2, Muneyuki Adachi1,3, Tsuyoshi Yamada3, Tokio Ueno3 |
△ |
6 |
CW-pumped efficient DFG using a QPM adhered-ridge waveguide |
NIMS1, Waseda Univ.2, Sumitomo Osaka Cement Co., LTD3 ○(M1)Yusuke Muranaka1,2, Kaori Sugiura1,2, Sunao Kurimura1,2, Kiyofumi Kikuchi1,2, Rai Kou1,2, Hirochika Nakajima2, Junichiro Ichikawa3 |
|
7 |
Measurement of absorption of periodically poled nonlinear crystal |
Tokyo Univ.1, Tokyo Univ.2 ○Kyohei Watanabe1, Shinya Yasuda2, Noriaki Ohmae2, Shigenori Moriwaki1, Norikatsu Mio1,2 |
△ |
8 |
Clad-less nonlinear waveguide for sensing |
Waseda Univ.1, NIMS2, NTT Lab.3, Toyama Murata corp.4 ○Eiki Mochizuki1,2, Yusuke Muranaka1,2, Takuya Utsugida1,2, Sunao Kurimura2, Hirochika Nakajima1, Kiyofumi Kikuchi1,2,3, Akihiro Terasaki1,2,4 |
△ |
9 |
Achromatically Coupled Wavelength Conversion Module with SILICAGRIN® Lens |
NIMS1, Waseda Univ.2, TOYO GLASS Co., LTD3, Sumitomo Osaka Cement Co., LTD4 ○(M2)Kaori Sugiura1,2, Sunao Kurimura1,2, Yusuke Muranaka1,2, Kiyofumi Kikuchi1,2, Taro Suzuki3, Hirochika Nakajima2, Junichiro Ichikawa4 |
Cutting Edge of Nanowire Research |
March 15 13:00〜17:45 |
15p-B3 - 1〜11 |
|
1 |
Introductory Talk |
Graduate School of IST, Hokkaido Univ.1 ○Junichi Motohisa1 |
|
2 |
InAs Nanowire Circuit Applications |
Sophia Univ.1, Univ. Duisburg-Essen2 ○Takao Waho1, Werner Prost2 |
|
3 |
Growth and Application of III-V Compound Semiconductor Nanowires on Si Substrate |
Nagoya Univ.1 ○Masahito Yamaguchi1, Ji-Hyun Paek1, Takuya Tabata1, Shinta Nakagawa1, Yoshio Honda1, Hiroshi Amano1 |
|
4 |
Growth of group IV semiconductor nanowires |
Graduate School of Engineering, Kobe University1, Panasonic2 ○Minoru Fujii1, Takahiro Kawashima2, Tohru Saitoh2 |
▲ |
5 |
Growth of InP-InAs heterostructure nanowires via the In-particle-assisted vapor-liquid-solid mode |
NTT BRL1 ○guoqiang zhang1, kouta tateno1, hideki gotoh1, tetsuomi sogawa1 |
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Break 14:55〜15:15 |
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6 |
MOCVD Growth and Optical Characteristics of III-Nitride Semiconductor Nanowires / Quantum dots in Nanowires |
NanoQuine, Univ. of Tokyo1, IIS, Univ.of Tokyo2 ○Munetaka Arita1, Kihyun Choi2, Yasuhiko Arakawa1,2 |
|
7 |
Fabrication of InP-based Nanowires for Near-infrared Optical Device Applications |
Fujitsu Lab.1, Lund Univ.2 ○Kenichi Kawaguchi1,2, Magnus Heurlin2, David Lindgren2, Magnus Borgström2, Lars Samuelson2 |
|
8 |
ZnO Nanocrystals: Building Blocks for Light Emitting Devices |
ISEE, Kyushu Univ.1 ○Tatsuo Okada1, Daisuke Nakamura1 |
|
9 |
Growth mechanisms of semiconductor nanowires from computational science viewpoint |
Mie Univ.1 ○Toru Akiyama1 |
|
10 |
Fabrication of the molecular nanowires using the Ge(110)-16x2 and Si(110)-16x2 template surfaces |
Tsukuba Univ.1, Mahidol Univ.2, JAEA3 ○Yoichi Yamada1, Asawin Sinsarp2, Yuta Yokoyama3, Hidehito Asaoka3, Masahiro Sasaki1 |
|
11 |
|
○ 1 |
Lightwave sensing technology for disaster prevention after Japan's 3/11 |
March 15 13:00〜17:45 |
15p-B9 - 1〜11 |
|
1 |
How to make lightwave sensing technology helpful for disaster prevention - Introductory talk - |
Tokyo Univ. Agri. & Technol.1 ○Takashi Kurokawa1 |
|
2 |
Fiber Optic Sensor Network for Disaster Prevention Information System |
The University of Tokyo1 ○Hideaki Murayama1 |
|
3 |
Non-destructive inspection technique for detecting irradiation-induced microstructural changes in structural materials of nuclear power plants |
The University of Tokyo1, Nuclear Fuel Industries Ltd.2 ○Taira Okita1, Yoshihiro Isobe2, Mitsuyuki Sagisaka2, Junji Etoh2 |
|
4 |
In-vessel Observation in the Experimental Fast Reactor Joyo by Fiberscope -Toward the High Temperature and High Radiation Dose Conditions- |
JAEA1 ○Wataru Itagaki1 |
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Break 14:45〜15:00 |
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5 |
Prediction of Local Weather Change by Lidar |
Chiba Univ.1 ○Tatsuo Shiina1 |
|
6 |
Nano-Strain-Resolution Fiber Optic Strain Sensors for Crustal Deformation Monitoring |
Univ. of Tokyo1, Univ. of Tokyo2 ○Zuyuan He1, Qingwen Liu1, Tomochika Tokunaga2 |
|
7 |
Measurement of timber-framed brick wall displacement by earthquake using distributed fiber optic sensor |
Mie Univ.1, Heritage Structure Engineering Design2, Earth Science and Disaster Prevention3, Tokyo Denki Univ4 ○Hiroshi Naruse1, Toshikazu Hanazato1, Yuya Mizuno1, Sachiho Hanazato1, Yoshiaki Tominaga2, Tadashi Mikoshiba3, Yasushi Niitsu4 |
|
8 |
Sensor network based on fiber optic power supply for disaster prevention |
Tokyo Univ. of Agri. and Tech1 ○Yosuke Tanaka1, Takashi Kurokawa1 |
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9 |
Radiation and Heat Resistant Optical Fiber Sensor System for Nuclea Power Plant Monitoring |
Univ. of Fukui1, JAEA2 ○Takao Kobayashi1, Tosio Katuyama1, Kazuyosi Kurihara1, Koichi Saruta2, Kazuyuki Tukimori2 |
|
10 |
Security camera network by means of fiber optic power supply |
Tokyo Univ. of Agri. and Tech.1 ○Naoto Tsuchida1, Yuya Tanaka1, Yosuke Tanaka1, Takashi Kurokawa1 |
|
11 |
Measurement range elongation of distributed Brillouin fiber sensor using optical frequency comb |
Tokyo Univ. of Agri. and Tech.1 ○Yoshitake Usui1, Ken Kashiwagi1, Yosuke Tanaka1, Takashi Kurokawa1 |
Novel properties and applications of multinary compounds |
March 15 13:00〜17:45 |
15p-E9 - 1〜6 |
|
1 |
Recent Progress of Multinary II-IV-V2 Based Magnetic Semiconductors |
Nagaoka Univ. of Tech.1 ○Naotaka Uchitomi1 |
|
2 |
Fabricatin of the films and the evaluation for X-ray imaging sensor |
Faculty of Science and Engineering, Ishinomaki-senshu Univ.1, Res.and Develop. Div., Riken Corp.2 ○Katsumi Mochizuki1, Junichi Takahashi2 |
|
3 |
Structural studies for iron-based superconductors using high-pressure technique |
CHS, Nihon Univ.1 ○Hiroki Takahashi1, Takahiro Tomita1 |
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Break 15:15〜15:30 |
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4 |
The spin states and thermoelectric properties of the complex cobalt oxides |
Nagoya Univ.1 ○Ichiro Terasaki1 |
▲ |
5 |
TlMeX2 low dimensional compounds: possibility of a multiferroic phase |
Inst. of Physics, Azerbaijan1, Chiba Inst. of Tech.2, Osaka Pref. Univ.3, Gebze Inst. of Tech., Turkey4, Kazan Physico-Tech. Inst., Russia5 ○Nazim Mamedov1, Zakir Chahangirli1, Oktay Alekperov1, Kazuki Wakita2, Kojiro Mimura3, Ramiz Veliev1, Faik Mikailzade4, Tofig Mammadov1, Asiye Shale4, Sinan Kazan5, Rustam Khabibulin5, Nail Khalitov5, Bakhshi Mekhtiev1 |
|
6 |
Proposal of high performance photonic elements based on composite photonic structures |
Osaka Pref. Univ.1 ○Hajime Ishihara1, Atsuyuki Oyamada1, Hisanobu Kitaguchi1 |
From Control of Physical Properties of Semiconductors with Intentional Doping of Functional Impurities to Device Applications with Designed New
Active Functions for Future: Propose function core model |
March 15 13:05〜17:40 |
15p-E1 - 1〜11 |
|
1 |
Introductory Talk |
Kochi Univ. Tech, Inst.1 ○Tetsuya Yamamoto1 |
|
2 |
Vacancies and light-mass-element impurities in silicon wafers for device manufacturing: physical properties and material functionalities |
Niigata Univ. Center for Transdisciplinary Research1 ○Hiroshi Kaneta1 |
|
3 |
Technology Trend of Silicon Wafers on Power Devices : Carrier Lifetime Control |
Chiba Inst. of Tech.1 ○Hidekazu Yamamoto1 |
|
4 |
Activation by laser anneal of highly concentrated Bi donors in wire-δ-doped Si confirmed by optical and electrical characterization |
NIMS1, Univ. of Tsukuba2, Univ. of Tokyo3, AIST4 ○(D)Koichi Murata1,2, Yuhsuke Yasutake3, Koh-ichi Nittoh1, Kunihiro Sakamoto4, Susumu Fukatsu3, Kazushi Miki1,2 |
|
5 |
Acceptor/Donor Interaction for diamond photoconductivity |
NIMS1 ○Yasuo Koide1 |
|
|
Break 14:55〜15:05 |
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|
6 |
Control of Cooperative Luminescent Properties in Rare-Earth Doped Semiconductors |
Osaka Univ.1 ○Yasufumi Fujiwara1 |
|
7 |
Nitrogen delta doping in GaAs epitaxial interface and the extremely uniform light emission |
Kobe University1 ○Takashi Kita1, Yukihiro Harada1 |
|
8 |
Control of Electrical and Optical Properties of Metal Oxide Films by Photo Reaction |
AIST1 ○Tetsuo Tsuchiya1, Tomohiko Nakajima1, Kentaro Shinoda1 |
|
9 |
Defect-induced ferromagnetism of EuTiO3 thin film |
Kyoto Univ.1 ○Katsuhisa Tanaka1, Koji Fujita1 |
|
10 |
Control of Valence States of ZnO: Localized and Delocalized States |
Research Inst., Kochi Univ. Tech.1 ○Tetsuya Yamamoto1, Huaping Song1, Hisao Makino1 |
|
11 |
|
○ 1 |
M&BE division special symposium: Leading Edge of Bio-imaging |
March 15 13:30〜16:15 |
15p-F8 - 1〜6 ENGLISH SESSION |
▲ |
1 |
Introductory talk |
IMCE, Kyushu Univ.1 ○Kaoru Tamada1 |
▲ |
2 |
Nanoscale Imaging with Force-based Atomic Force Microscope |
POSTECH1 ○Joon Won Park1 |
▲ |
3 |
Biochemical Mapping with MALDI Imaging Mass Spectrometry |
Hamamatsu Univ.Sch.Med.1 ○Mitsutoshi Setou1 |
|
|
Break 14:50〜15:00 |
|
▲ |
4 |
Resolution improvement in laser scanning microscopy by using saturated and nonlinear excitation |
Osaka Univ.1 ○Katsumasa Fujita1 |
▲ |
5 |
Revolutionary bioimaging with super-duper luminescent proteins |
RIES, Hokkaido Univ.1, PRESTO, JST2 ○Takeharu Nagai1,2 |
|
6 |
Application of SPR imaging for visualization of individual cell reaction |
Hiroshima Univ.1, RNBS2, Kyusyu Univ.3 ○Yuhki Yanase1, Kenji Sakamoto2, Kaoru Tamada3, Michihiro Hide1,2 |
Reform of science experiments- From elementary and secondary to higher education - |
March 15 13:30〜16:30 |
15p-B4 - 1〜8 |
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1 |
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|
|
2 |
Summary and Recommendations for the Future Actiities of the Refresh Science classroom of 15-years |
Chubu Uniersity1 ○Shigeki Okajima1 |
|
3 |
The Promotion of Experiments and Demonstrations in Physics Classes in Secondary Education -As a Bridge between Primary Education and Higher Education- |
Azabu High School1 ○Hiroshi Masuko1 |
|
4 |
Action of the Scientific Classroom for Children |
Tokyodenki Univ.Dep.of Engineering1 ○Kumi Soe1, Mitsuya Motohashi1, Namio Matsuda1, Akira Tamaki1 |
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|
Break 14:50〜15:00 |
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|
5 |
Understanding Fundamental Concepts in Physics through Experimental Physics Course |
Waseda University1 ○Tsuneaki daishido1 |
|
6 |
Bodily felt basic physical experiments for new students in college: example of thermodynamics experiments |
Waseda Univ.1 ○Tomonori Ishikawa1, Shyo Nakagawa1, Mokoto Nakabayasi1, Takuro Katufuji1 |
|
7 |
Activities by a student project team for science enlightenment and regional collaboration and their educational effects |
Chitose Inst. of Science & Technology1 ○makoto hasegawa1 |
|
8 |
|
|
Heteroepitaxial growth of light-element widegap thin films and highly-functionalized interfaces |
March 15 13:30〜16:40 |
15p-F5 - 1〜6 |
|
1 |
Introductory Talk |
AIST1 ○Tokuyuki Teraji1 |
|
2 |
Hetero-epitaxial-growth of diamond |
Toplas-Engineerings Co.,Ltd1, Aoyamagaguin Univ.2 Atsuhito Sawabe2, ○Kazuhiro Suzuki1 |
|
3 |
Mechanism of 3C-SiC heteroepitaxial growth on Si substrates |
AIST1 ○Yuuki Ishida1 |
|
|
Break 15:00〜15:10 |
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|
4 |
Nitride semiconductor/diamond heterostructure: crystal growth and device application |
NTT Basic Research Labs.1, Saga Univ.2 ○Kazuyuki Hirama1, Yoshitaka Taniyasu1, Makoto Kasu2 |
|
5 |
Heteroepitaxial growth of group-III nitride/SiC and its device application |
Kyoto Univ.1 ○Jun Suda1 |
|
6 |
Closing Talk |
AIST1 ○Satoshi Yamazaki1 |
Digital Optics |
March 15 13:30〜16:45 |
15p-B10 - 1〜6 |
|
1 |
Digital Optics: An Emarging Field of Optical Science and Information Technology |
Osaka Univ.1 ○Jun Tanida1 |
|
2 |
Digital Holography for a Special Purpose |
Wakayama Univ.1 ○Takanori Nomura1 |
|
3 |
Development of digital holographic nanoscope |
Utsunomiya Univ. CORE1 ○Yoshio Hayasaki1 |
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|
Break 15:00〜15:15 |
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|
4 |
Three-dimensional Display and Visualization System |
Kobe Univ.1 ○Osamu Matoba1 |
|
5 |
Non-uniform sampling based diffraction calculation |
Chiba Univ.1 ○Tomoyoshi Shimobaba1, Nobuyuki Masuda1, Tomoyoshi Ito1 |
|
6 |
Acceleration Techniques for GPU Computing |
Osaka Univ.1 ○Kenichi Hagihara1 |
One year after the nuclear power plant accident in Fukushima -- Radiation monitoring and radioactivity measurements for revival |
March 15 13:30〜17:10 |
15p-E7 - 1〜9 |
|
1 |
Introductory Talk |
Kyoto Univ.1 ○Ikuo Jinno1 |
|
2 |
A Method for Correction of Coincidence Summing for 134Cs |
Nagoya Univ.1, Aichi Med. Univ.2, Gifu Univ. Med. Sci.3 ○Yoshimune Ogata1, Sadao Kojima2, Hiroshi Miyahara3 |
|
3 |
Decontamination of Outdoor Pool at Schools in Fukushima Prefecture |
JAEA1 ○Jun Saegusa1 |
|
4 |
Clean-up of Cs-contaminated water by grafted adsorbent |
JAEA, QuBS1, JAEA, Takasaki2 ○Noriaki Seko1, Yuji Ueki1, Hiroyuki Hoshina1, Seiichi Saiki1, Akio Iwanade2, Noboru Kasai1 |
|
5 |
Development of an analysis method for the soil-to-plant dynamics of radiocaesium |
Japan Atomic Energy Agency1 ○Shu Fujimaki1 |
|
|
Break 15:20〜15:35 |
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6 |
Environmental Radiation Research in Kawamata-machi, Fukushima Prefecture |
Atomic Energy Research Institute, Kinki Univ.1, NIRS2, The mayor of Kawamata-machi3 ○Genichiro Wakabayashi1, Hirokuni Yamanishi1, Sin-ya Hohara1, Tetsuo Ito1, Masayo Inagaki1, Tetsuo Horiguchi1, Kiyoshi Kojima1, Nobuyuki Sugiura2, Michio Furukawa3 |
|
7 |
Support activities by a group of Tohoku Univ. through radioactivity monitoring |
Inst. for Mater. Res., Tohoku Univ.1 ○Tomoo Yamamura1, Kenji Shirasaki1, Isamu Satoh1 |
|
8 |
Fukushima Accident 〜 On the View of Dose Monitoring Company 〜 |
Chiyoda Technol Corporation1 ○Daisuke Maki1, Norihito Sato1, Hiroyuki Ohguchi1, Tomoaki Kosako1, Takayoshi Yamamoto1, Nobuhiro Takeuchi1 |
|
9 |
Closing Talk |
Nagoya Univ.1 ○Ken-ichi Watanabe1 |
Superconducting technology into the market - Wind generator and medical application- |
March 15 13:30〜17:15 |
15p-B7 - 1〜7 |
|
1 |
Superconducting Technology in Wind Power |
Chubu Electric Power Co., Inc.1 ○Shigeo Nagaya1 |
|
2 |
Feasibility of Application of HTS Technology to Large Scale Offshore Wind Turbine Generator |
Niigata Univ.1 ○Satoshi Fukui1 |
|
3 |
Measurements of linguistic brain functions with MEG and fMRI |
NICT1 ○Norio Fujimaki1 |
|
4 |
An Increase in Right Atrial Magnetic Strength is a Novel Predictor of Recurrence of Atrial Fibrillation after Radiofrequency Catheter Ablation |
Univ. of Tsukuba1, Advanced Research Laboratory2 ○Kentaro Yoshida1, Kuniomi Ogata2, Akihiko Kandori2, Kazutaka Aonuma1 |
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|
Break 15:30〜15:45 |
|
|
5 |
carbon ion radiotherapy at NIRS |
重粒子医科学センター1 ○Tadashi Kamada1 |
|
6 |
Heavy-Ion Accelerator for Cancer Therapy |
National Institute of Radiological Sciences1 ○Koji Noda1 |
|
7 |
Application of Superconductivity Technology to Heavy Ion Medical Accelerator |
Waseda Univ.1 ○Atsushi Ishiyama1 |
Recent progress of spintronics materials |
March 15 13:30〜18:10 |
15p-A3 - 1〜10 |
|
1 |
Introduction |
Tohoku Univ. ○Yasuo Ando1 |
|
2 |
Outlook of spintronics materials |
NIMS1 ○Koichiro Inomata1, Hiroaki Sukegawa1, Seiji Mitani1 |
|
3 |
Perpendicular anisotropy magnetic tunnel junctions with thin ferromagnetic layer |
RIEC, Tohoku Univ.1, CSIS, Tohoku Univ.2, CRL, Hitachi3 ○shoji Ikeda1,2, Michihiko Yamanouchi2, Hideo Sato2, Huadong Gan2, Ryouhei Koizumi1, Katsuya Miura3,2,1, Kotaro Mizunuma1, Shun Kanai1, Fumihiro Matsukura1,2, Hideo Ohno1,2 |
|
4 |
Development of thin films for perpendicular-type Spin-RAM applications |
AIST1 ○Kay Yakushiji1, Hitoshi Kubota1, Akio Fukushima1, Koji Ando1, Shinji Yuasa1 |
|
5 |
Magneto-resistance effect and spin-torque related phenomena in half-metallic Heusler compound-based giant magneto-resistive devices |
IMR, Tohoku Univ.1 ○Yuya Sakuraba1, Ryo Okura1, Masaki Ueda1, Subrojati Bosu1, Kesami Saito1, Takeshi Seki1, Mizuguchi Masaki1, Koki Takanashi1 |
|
6 |
Epitaxial magnetic tunnel junction with a metastable cubic Al2O3 barrier |
NIMS1 ○Hiroaki Sukegawa1, Seiji Mitani1, Tomohiko Niizeki1, Tadakatsu Ohkubo1, Koichiro Inomata1, Kazuhiro Hono1 |
|
|
Break 15:55〜16:10 |
|
▲ |
7 |
Electrical and Thermal Spintronics in Silicon |
AIST1 ○Ron Jansen1 |
|
8 |
Spintronics materials with a low damping constant |
WPI, Tohoku Univ.1, Tohoku Univ.2 ○Shigemi Mizukami1, Takahide Kubota1, Qinli Ma1, Xianmin Zhang1, Hiroshi Naganuma2, Mikihiko Oogane2, Akimasa Sakuma2, Yasuo Ando2, Terunobu Miyazaki1 |
|
9 |
Spintronics with Functional Oxide Nano-structures |
ISIR-Sanken1 ○Hidekazu Tanaka1 |
|
10 |
Giant Rashba-type spin splitting in polar semiconductor |
Univ. of Tokyo1 ○Kyoko Ishizaka1 |
Design and construction of Large-scale Cryogenic Gravitation wave Telescope "KAGRA" |
March 15 13:40〜16:50 |
15p-F2 - 1〜6 |
|
1 |
Introduction : Challenge for Gravitational Wave Detection and Large-scale Cryogenic Gravitational wave Telescope Project |
ICRR.UT1 ○Shinji Miyoki1 |
|
2 |
Optical design technologies for ultra-sensitive gravitational wave detectors |
University of Tokyo1, The LCGT Collaboration2 ○Yoichi Aso1, Collaboration LCGT2 |
|
3 |
Production process of long and large-diameter tubes for the LCGT vacuum system |
KEK1, ICRR2 ○Yoshio Saito1, Ryutaro Takahashi2 |
|
|
Break 15:10〜15:20 |
|
|
4 |
Vibration isolation system for mirrors observing microscopic displacements |
ICRR1 ○Ryutaro Takahashi1 |
|
5 |
Technical Achievements of Cryogenic Laser Interferometeric Gravitational Wave Detector: CLIO |
ICRR UT1, AIST2, KEK3, Nihon Univ4, Yamanashi Eiwa5, NAOJ6, Phys UT7, AIT8, ERI UT9, DPRI10, Phys Kyoto U11, NIPR12, ORI UT13, Tsukuba U14, Phys Osaka15, OCU16, CALTECH17 ○Takashi Uchiyama1, Collaborators CLIO1,2,3,4,5,6,7,8,9,10,11,12,13,14,15,16,17 |
|
6 |
Development of Laser System for LCGT |
Dept of Applied Physics, Univ. of Tokyo1, JST-ERATO2, Photon Science Center, Univ. of Tokyo3 ○Noriaki Ohmae1,2, Norikatsu Mio3 |
Plasma Electronics Symposium : Future Perspective on Plasma Process for Carbon Nanomaterials 〜 From Synthesis to Functionalization 〜 |
March 15 13:50〜17:15 |
15p-E8 - 1〜7 |
|
1 |
Controlling Structures and Properties of Single-Wall Carbon Nanotubes -Recent Research Progress in eDIPS-CVD, Separation, and Manufacturing Process- |
AIST1 ○Takeshi Saito1 |
|
2 |
Deposition and Tribological Properties of Diamond-like Carbon Films |
Tokyo Institute of Technology1 ○Naoto Ohtale1 |
|
3 |
Graphene synthesis by large-area microwave plasma CVD and its applications |
National Institute of Advanced Industrial Science and Technology1 ○Jaeho Kim1, Masato Ishihara1, Kazuo Tsugawa1, Takatoshi Yamada1, Yoshinori Koga1, Masataka Hasegawa1, Sumio Iijima1 |
|
|
Break 15:20〜15:30 |
|
|
4 |
Synthesis of Well-Designed Structural Carbon Nanowall and Its High-Order Functionalization |
Nagoya Univ.1, Meijo Univ.2 ○Masaru Hori1, Hiroki Kondo1, Kenji Ishikawa1, Keigo Takeda1, Makoto Sekine1, Mineo Hiramatsu2 |
|
5 |
Synthesis of Diamond and Carbon Nanotube for Electron Device and Sensor Application |
Waseda University1 ○Hiroshi kawarada1 |
|
6 |
Low-temperature Synthesis of graphene and Carbon Nanotube for Interconnect application |
Low-power Electronics Association & Project (LEAP)1 ○Tadashi Sakai1 |
|
7 |
Structural-Controlled Growth and Functionalization of Single-Walled Carbon Nanotubes and Graphene by Diffusion Plasma Processing |
Department of Electronic Engineering, Tohoku Univ.1 ○Toshiaki Kato1, Rikizo Hatakeyama1 |