計測技術・計量標準のスマートグリッドへの展開 |
September 11 13:30~16:00 |
11p-C10 - 1~6 |
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1 |
Smart-grid and Measurement Technologies & Standards |
Nihon Univ.1 ○Yukinori Sakuta1 |
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2 |
Measurement of Electric Power |
Yokogawa Meter & Instruments1 ○Hisashi Iwase1 |
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3 |
Utilizing Cloud Servers in Smart Grid |
AIST1 ○Masahiro Murakawa1 |
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4 |
Photometry for LED lighting |
TIRI1 ○Toshihide Iwanaga1 |
△ |
5 |
Remote sensing of current in a high-voltage overhead power line for the smart grid |
Kagawa Univ1 ○(M1)Yusuke Nakatani1, Kazuhiro Umeda1, Kensho Okamoto1 |
|
6 |
Precise Electric Standard Equipments using Programmable Josephson Junction Elements |
AIST / NMIJ1, AIST / NERI2 ○Akio Iwasa1, Michitaka Maruyama1, Takahiro Yamada2 |
What Spintronics realizes for the future? |
September 12 13:30~17:45 |
12p-H6 - 1~8 |
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1 |
Introduction : Needs and Seeds of Spintronics |
AIST1 ○Koji Ando1 |
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2 |
Spintronics/CMOS Hybrid Technology Based on Spin-Transistor Architecture |
ISEL,Tokyo Tech1, IGS, Tokyo Tech2, CREST,JST3, KAST4 ○Satoshi Sugahara1,2,3, Yota Takamaura1, Yusuke Shuto1,3,4, Shuu'ichirou Yamamoto2,3 |
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3 |
Highly Functional and Low-Power Computing Using Spintronics Logic Circuits |
Tohoku Univ.1 ○Takahiro Hanyu1 |
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4 |
About optical analogue of non-volatile memory |
Tokyo Tech.1 ○Hiro Munekata1 |
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Break 15:30~15:45 |
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5 |
Bio-Magnetic Field Sensor using Spintronics Technology |
Tohoku Univ.1, Konica Minolta Technology Center2 ○Yasuo Ando1, Kosuke Fujiwara1, Mikihiko Oogane1, Hiroshi Naganuma1, Takuo Nishikawa2 |
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6 |
Developing magnetic recording beyond 10Tbit/in2 |
Toshiba R&D Center1 ○Rie Sato1 |
|
7 |
Environmentally-friendly spin device driven by heat energy |
IMR Tohoku Univ.1 ○Ken-ichi Uchida1 |
|
8 |
Quantum information devices with spin |
Tokyo Univ.1 ○Seigo Tarucha1 |
Plasma applications to bio- and medical technologies |
September 12 15:00~18:45 |
12p-E1 - 3~10 |
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3 |
Control of the indoor living thing origin toxic substance by electrostatic atomization |
Panasonic Corporation1 ○Toshiyuki Yamauchi1 |
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4 |
Effect of plasma and pulsed power on biological cell |
Kumamoto University1 ○Hidenori Akiyama1 |
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5 |
Plasma Application to Agriculture - from disinfections to growth enhancement - |
Kyushu Univ.1, Saga Univ.2, Sasebo N.C.T.3, Ryukyu Univ.4, Kyushu Univ.5 ○Nobuya Hayashi1, Kohzo Kanda2, Kazusato Ohshima2, Yoshihito Yagyu3, Akira yonesu4, Kazunori Koga5, Masaharu Shiratani5 |
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6 |
The progress of Plasma Physics and Technologies, ~Road to the Medical Treatment~ |
AIST1, AIST2, Univ. Tokyo Hospital3 ○Hajime Sakakita1, Yuzuru Ikehara2, Nobuyuki Shimizu3, Jaeho Kim1 |
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Break 17:00~17:15 |
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7 |
Renovation of Future Medecine by Construction of Plasma Medical Science |
Nagoya Univ.1 ○Masaru Hori1 |
|
8 |
Plasma and Beam Processes Applied to Medical and Biological Devices |
Hitachi, Ltd. Central Research Lab.1 ○Naoshi Itabashi1 |
|
9 |
Innovative disinfection method combined with the plasma treated water and the reduced pH method |
Eng. Osaka Univ.1, TRI Osaka2 ○Katsuhisa Kitano1, Satoshi Ikawa2 |
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10 |
Gene Transfection by Plasmas Produced with a Micro-Capillary Electrode |
Ehime Univ.1, Osaka Electro-Commun. Univ.2, Y's Corp.3, Pearl Kogyo Co., Ltd.4 ○Masafumi Jinno1, Tadashi Okihiro1, Hidetoshi Murakami1, Takuya Yamasaki1, Seiryu Shibakawa1, Hideki Motomura1, Kunihide Tachibana2, Susumu Satoh3, Noboru Saeki4 |
Oxide Heterostructures and Nanocomposites |
September 13 9:00~17:00 |
13a-C9 - 1~7 |
▲ |
1 |
Complex Oxide Interface - A Path to design New Materials(仮) |
Max-Planck-Institute for Solid State Research, Germany1 ○H.-U. Habermeier1, S. Heinze1, P. Yordanov1 |
▲ |
2 |
Epitaxial Syntheses of Functioning Oxide Interface and Nanomaterials |
Tokyo Tech.1, JST-ALCA2 ○Akira Ohtomo1,2 |
▲ |
3 |
Magnetoelectric phase engineering in oxides by interfaces |
ETH Zurich1 ○Manfred Fiebig1 |
▲ |
4 |
Strong Spin-orbit Interaction in Ir Oxide Superlattices |
RIKEN ASI1 ○Jobu Matsuno1 |
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Break 11:00~11:15 |
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▲ |
5 |
Surface plasmons on oxide nanomaterials: control of plasmon resonance via electron doping |
The Univ. of Tokyo1, Tomoe Corp. Ltd.2 ○Hiroaki Matsui1, Wasanthamala Badalawa1, Takayuki Yamasaki2, Shinya Furuta2, Hitoshi Tabata1 |
▲ |
6 |
Refractive Index of Oxide Nanocolumns-Fluid Composite; Application to Waveguide-mode Sensors |
Kyoto Univ.1 ○Motofumi Suzuki1, Munehito Takagaki1, Kaoru Nakajima1, Kenji Kimura1 |
▲ |
7 |
Thin Film Evaluation with X-ray Diffraction: from mass density, surface roughness to supercell in superlattice |
Kanagawa Ind. Tech. Center1, Tokyo Inst. of Tech.2 ○Satoru Kaneko1,2, Mamoru Yoshimoto2 |
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Lunch 12:00~13:30 |
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13p-C9 - 1~9 |
▲ |
1 |
Connecting Spin Waves to Electronics: Towards Charge-Free Spintronics(30min.) |
Argonne National Lab.1, Colorado State Univ.,2, Technische Univ. Kaiserslautern3, Graduate School of Excellence Materials Science in Mainz4 ○Axel Hoffmann1, Helmut Schulthei 1, John E Pearson1, Shikha Jain1, Samuel D. Bader1, Zihui Wang2, Yiyan Sun2, Young-Yeal Song2, Mingzhong Wu2, Katrin Vogt3,4, Burkard Hillebrands3,4 |
▲ |
2 |
Development of Oxide Barrier and TCO Layers for Flexible Devices |
KIMS1 ○Gun-Hwan Lee1, Jung-Heum Yoon1, Sung-Hoon Lee1, Dong-Ho Kim1 |
▲ |
3 |
Total Control of Oxide Nanostructures |
ISIR, Osaka Univ.1 ○Hidekazu Tanaka1 |
▲ |
4 |
Heterostructured bi-magnetic soft-hard core-shell nanoparticles(30min.) |
Campus UAB1, Stockholm Univ.2, Univ. de Barcelona3, St. Petersburg Nuclear Physics Institute4, Univ. of Gothenburg5, Argonne National Laboratory6, NCSR Demokritos7, Institució Catalana de Recerca i Estudis Avançats8, Univ. Autònoma de Barcelona9 ○Josep Nogues1,8,9, M. Estrader1,2, G. Salazar-Alvarez2, S. Estradé3, I.V. Golosovsky4, R.K. Dumas5, D.J. Keavney6, M. Vasilakaki7, K.N. Trohidou7, J. Sort8,9, F. Peiró3, S. Surinach9, M.D. Baro9, A. López-Ortega1 |
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Break 15:30~15:45 |
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▲△ |
5 |
Cation-vacancy complex-defect in ZnO powder |
NIT nagoya1, NIT nagoya2, Shi. Univ3 ○(P)Senthilkumar Kasilingam1, Subramanian Munisamy1, Ebisu Hiroshi2, Tanemura Masaki1, Fujita Yasuhisa3 |
▲ |
6 |
Optical Properties of ZnO Thin Films Grown Using High-Energy H2O Generated by a Catalytic Reaction |
Nagaoka Univ. Technol.1 ○Kanji Yasui1, Hitoshi Miura1, Souichi Satomoto1, Takahiro Kato1 |
▲ |
7 |
Depositions of Proton Conductive Oxide Thin Films for Fuel Cell Applications |
Tsuruoka NCT1, T.I.Tech.2 ○Kiyoshi Uchiyama1, Hiroshi Funakubo2 |
▲ |
8 |
Mechanisms for Enhanced Critical Current Properties of YBa2Cu3O7-delta Superconducting Thin Films |
AIST1, Univ. of Cambridge2 ○Katherine Develos Bagarinao1, Hirofumi Yamasaki1, Jiacai Nie1, Yoshihiko Nakagawa1, Kotaro Ohki1, Hiroaki Matsui1, Iwao Yamaguchi1, Stuart Wimbush2, Judith MacManus-Driscoll2 |
▲ |
9 |
Preparation and Characterization of Shocked Bi-Superconducting Particles and Application |
Tokyo Univ. of Tech.1, Kanazawa Inst. of Tech.2, Mie Univ.3, Kinki Univ.4, NIMS5, Kumamoto Univ.6 ○Hiroshi Kezuka1, Takaki Kameya1, Masashi Obayashi1, Kazuhiro Endo2, Tamio Endo3, Mineo Itoh4, Shunichi Arisawa5, Tsutomu Mashimo6, Liliang Chen6 |
50th Anniversary of the Optical Devices -Development History and Trends- |
September 13 13:30~17:30 |
13p-H10 - 1~8 |
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1 |
Introductory Talk -History of Optical Devices- |
Mie Univ.1 ○Hideto Miyake1 |
|
2 |
Initiating with Alloy, Innovating Self-Assembled Photonic Quantum Structure, and Further. |
Kyoto Univ.1 ○Akio Sasaki1 |
|
3 |
The early period of nitride semiconductors |
Dept. EECS, ARC, Nagoya Univ.1 ○Hiroshi Amano1 |
|
4 |
Development of AlGaAs-DHLD with a single mode and long term operation |
Osaka Electro-Comm. Univ.1 ○Wataru Susaki1 |
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Break 15:10~15:30 |
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5 |
Development of Semiconductor Lasers for Telecommunication: Chemistry of Seeds and Needs |
Hitachi CRL1 ○Shinji Tsuji1 |
|
6 |
Recent development of nitride LEDs |
Nichia Corp.1 ○Takashi Mukai1 |
|
7 |
Study on reliability and degradation of optical devices over 40 years and future prospect |
Kanazawa Inst. of Tech.1 ○Osamu Ueda1 |
|
8 |
Crystal Growth for Optical Devices:History and Challenge in View of Tool Manufacturer |
TN EMC1 ○Koh Matsumoto1 |
Present status and future prospects of ternary and multinary compound semiconductor solar cells |
September 11 9:30~18:00 |
11a-H8 - 1~8 |
|
1 |
Thin Film compound semiconductor solar cells : Introduction |
Ryukoku Univ.1 ○Takahiro Wada1 |
|
2 |
Challenge and Potential of Wide Bandgap Cu(In,Ga)Se2 Related Compound Solar Cells |
Ritsumeikan Univ.1 ○Takashi Minemoto1 |
|
3 |
High Temperature Preparation of Cu(In,Ga)Se2 Thin Films with High Ga Content |
Dept. Physical Electronics, Tokyo Tech.1, Photovoltaics Research Center (PVREC), Tokyo Tech.2 ○(D)Yoshiaki Hirai1, Takao Kashima1, Yasuyoshi Kurokawa1,2, Akira Yamada1,2 |
|
4 |
Fabrication of Highly Efficient Flexible CIGS Solar Submodules |
AIST1 ○Shigenori Furue1, Yukiko Kamikawa1, Shogo Ishizuka1, Hironori Komaki1, Akimasa Yamada1, Koji Matsubara1, Hajime Shibata1, Shigeru Niki1 |
|
5 |
First-principles insight on fabrication process of CIGS solar cells |
Ryukoku Univ.1 ○Tsuyoshi Maeda1, Takahiro Wada1 |
|
6 |
Characterization of CIGS solar cell by PL and EBIC method |
Ehime Univ.1 ○Tatsuya Takagi1, Hiroyuki Ohta1, Shinji Yudate1, Akira Miyata1, Sho Shirakata1 |
|
7 |
Heat Light-Soaking Effect on Cell Performance of ZnS(O,OH)/CIGS Solar Cells |
Aoyama Gakuin Univ.1 ○Taizo Kobayashi1, Toyokazu Kumazawa1, Hiroshi Yamaguchi1, Tokio Nakada1 |
|
8 |
Characterization of Electronic Structure of CBD-Zn(S,O,OH)/CIGS interface (II) |
Kagoshima Univ.1, AIST2, Toyohashi Univ. Technol.3 Akiyoshi Kirihara1, Hideki Morita1, Hironori Chouchi1, Masanobu Izaki3, Shigeru Niki2, ○Norio Terada1,2 |
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Lunch 12:00~13:30 |
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11p-H8 - 1~13 |
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1 |
Characterization of deep defect states in Cu(In,Ga)Se2-based solar cells |
Univ.Tsukba1, AIST2 ○Takeaki Sakurai1, Amit Gupta1, Akimasa Yamada2, Shogo Ishizuka2, Koji Matsubara2, Shigeru Niki2, Katsuhiro Akimoto1 |
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2 |
Time Constant for Recombination Process in CIGS Solar Cells Measured by P-KFM |
Tokyo Univ. IIS1, Tokyo Univ. INQIE2, Ritsumeikan Univ.3 ○Hyeondeuk Yong1, Yuu Nakajima1, Takashi Minemoto3, Takuji Takahashi1,2 |
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3 |
Investigation of the electrical effect of the vicinity of back contact for Cu(In,Ga)Se2 solar cells by Impedance spectroscopy |
RIST, Tokyo Univ. of Science1 ○Hidenori Sakakura1, Nafisah Hamidon1, Muneatsu Hayashi1, Yuiko Hirose1, Masayuki Itagaki1, Mutsumi Sugiyama1 |
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4 |
Preparation of CuInS2 thin films by reactive-sputtering alternatively Cu and In targets in Ar-diluted H2S atmosphere |
Grad. School of Sci. and Tech., Niigata Univ.1, Fac. of Eng., Niigata Univ.2, Cen. for Trans. Research, Niigata Univ.3 ○Tomoya Ono1, Takahiro Nomoto2, Nozomu Tsuboi2,3 |
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5 |
Development of Cu2ZnSnS4 Thin-Film Submodules |
Solar Frontier K.K.1 ○Takuya Kato1, Homare Hiroi1, Noriyuki Sakai1, Satoshi Muraoka1, Christopher Liao1, Hiroki Sugimoto1 |
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Break 15:15~15:30 |
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6 |
Development of InGaP/GaAs/InGaAs Inverted Triple Junction Solar Cells for Concentrator Application |
SHARP Corporation1 ○Atsushi Yoshida1, Takaaki Agui1, Katsuya Nakaido1, Kazuaki Sasaki1, Tatsuya Takamoto1 |
|
7 |
InGaAs/GaAsSb quantum dot solar cell grown on GaAs (311)B substrate |
RCAST, The Univ. of Tokyo1, Inst. of Appl. Phys, Univ. of Tsukuba2 ○(D)Yasushi Shoji1,2, Katsuhiro Akimoto2, Yoshitaka Okada1 |
|
8 |
GaInNAsSb based solar cells for 4-junction tandem solar cells |
The Univ. of Tokyo, RCAST1 ○Naoya Miyashita1, Nazmul Ahsan1, Muhammad Monirul Islam1, Yoshitaka Okada1 |
▲ |
9 |
Smart interface management to implement a high quality strain balanced super-lattice solar cell |
The Univ. of Tokyo1, School of Engineering, The Univ. of Tokyo2 ○yunPeng Wang1, ShaoJun Ma2, Hassanet Sodabanlu1, Hiromasa Fujii2, kentaroh Watanabe1, Masakazu Sugiyama2, Yoshiaki Nakano1 |
|
10 |
Thin-film light-trapping structure for the solar cells with optically-thin absorber |
RCAST, Univ. of Tokyo1, School of Engineering, Univ. of Tokyo2 ○Kentaroh Watanabe1, Boram Kim2, Hassanet Sodabanlu1, Shaojun Ma2, Masakazu Sugiyama2, Yoshiaki Nakano1,2 |
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11 |
InGaP-based GaAs/InGaAs quantum dot solar cells fabricated using MBE |
AIST1, TCU2 ○Akihiro Takeda1,2, Takeyoshi Sugaya1, Ryuji Oshima1, Koji Matsubara1, Shigeru Niki1, Yoshinobu Okano2 |
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12 |
Space Application of III-V Compound Multi-Junction High Efficiency Solar Cells |
JAXA1, SHARP2, JAEA3 ○Mitsuru Imaizumi1, Tatsuya Takamoto2, Takeshi Ohshima3 |
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13 |
summary |
SHARP Corporation1 ○Tatsuya Takamoto1 |
New Aspects of Non-Equilibrium Electron Systems - Precise Control and Functional Exploration - |
September 11 13:00~17:35 |
11p-C5 - 1~12 |
|
1 |
Science of Dynamically Correlated Electrons in Semiconductors
for novel optical functions |
Univ. of Tokyo1, CREST (JST)2 ○Makoto Gonokami1,2 |
|
2 |
Nonlinear terahertz transport in 2D-electron system |
Kyoto University1 ○KOICHIRO TANAKA1 |
|
3 |
Control of electron transport in semiconductor superlattices by intense THz radiation |
IIS & INQIE, Univ. of Tokyo1, NICT2, FIR Center, Univ. of Fukui3 ○Kazuhiko Hirakawa1, Yohei Sakasegawa1,2, Hiroshi Tanaka1, Toshitaka Idehara3 |
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4 |
Non-equilibrium Carriers in Edge States in Two-dimensional Electron Systems |
Univ. of Tsukuba1, AIST2, NTT brl3 ○Shintaro Nomura1, Hironori Ito1, Shuhei Mamyoda1, Yusuke Shibata1, Youiti Ootuka1, Satoshi Kashiwaya2, Masumi Yamaguchi3, Hiroyuki Tamura3, Tatsushi Akazaki3 |
|
5 |
Time-Resolved Photoemission Spectroscopy for Hot-Electron Dynamics |
ISIR, Osaka Univ.1 ○Katsumi Tanimura1 |
|
6 |
Attosecond Dynamics of Inner-Shell Ionization of an Excited Helium Atom |
Univ. of Tokyo1, Imperial College2, Max Born Inst.3 ○Kenichi L. Ishikawa1, Suren Sukiasyan2, Misha Ivanov2,3 |
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Break 15:10~15:25 |
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7 |
Carrier multiplication in semiconductors and its application to solar cells |
Kyoto Univ.1 ○Yoshihiko Kanemitsu1 |
|
8 |
Non-equilibrium electrons and holes in quantum wires and wells |
Univ. of Tokyo1 ○Hidefumi Akiyama1 |
|
9 |
Ultrafast Dynamics in Gain-Switched Semiconductor Lasers |
NICHe, Tohoku Univ.1 ○Hiroyuki Yokoyama1 |
▲△ |
10 |
(Sub-)5-ps optical pulse generation from a gain-switched 1.55μm DFB laser diode |
ISSP,Tokyo Univ.1, NICHe, Tohoku Univ.2 ○Shaoqiang Chen1, Aya Sato2, Takashi Ito1, Masahiro Yoshita1,2, Hidefumi Akiyama1, Hiroyuki Yokoyama2 |
|
11 |
High-peak-power picosecond light pulse generation based on gain switching of a 1060-nm band semiconductor laser diode |
NICHe, Tohoku Univ.1, JST CREST2 ○Aya Sato1,2, Hiroyuki Yokoyama1,2 |
|
12 |
Conclusions: What is a laser? |
Osaka Univ.1 ○Tetsuo Ogawa1 |
Controlling Impurity-based Functional Materials and their device application : Diamond |
September 11 13:00~16:15 |
11p-C6 - 1~5 |
|
1 |
Theoretical study of defect formation energies in diamond |
AIST-NRI1, CREST2 ○Takehide Miyazaki1,2 |
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2 |
n-Type doping of diamond |
NIMS1 ○Satoshi Koizumi1 |
|
3 |
ESR information for diamond semiconductor devices |
AIST1, Osaka Univ.2, Tsukuba Univ.3, JST-CREST4 ○Satoshi Yamasaki1,3,4, Norikazu Mizuochi2,4 |
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Break 14:45~15:05 |
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4 |
Quantum Spin States in Diamond |
Keio Univ.1 ○Kohei Itoh1 |
|
5 |
Band structure and dopant chemical site of heavily doped diamond |
Okayama Univ.1 Hiroyuki Okazaki1, Yuji Muraoka1, ○Takayoshi Yokoya1 |
New Challenges to Medical and Industrial Applications using Accelerators |
September 11 13:30~17:30 |
11p-C3 - 1~9 |
|
1 |
「放射線奨励賞受賞記念講演」(15分) パルスメ線励起型ストリークカメラシステムの開発
| 東北大 ○柳田健之 |
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2 |
Development of a 3D precise position determination method for gamma rays using large area, thin monolithic MPPC arrays |
Waseda Univ.1, Furukawa Co.2, Hamamatsu Photonics K. K.3, Nagoya Univ.4 ○Aya Kishimoto1, Jun Kataoka1, Takuya Kato1, Takeshi Nakamori1, Kei Kamada2, Shigeyuki Nakamura3, Kenichi Sato3, Yoshitaka Ishikawa3, Kazuhisa Yamamura3, Seiichi Yamamoto4 |
|
3 |
BNCT facility with low-activation |
大洗研究所1 ○Tokushi Shibata1 |
|
4 |
Experimental study for cancer treatment using synchrotron radiation |
Shisuma General Hospital1, Waseda University2, Tohoku Univeristy3, JASRI/SPring-84 ○Takeshi Kondoh1, Kunio Shinohara2, Manabu Fukumoto3, Nobuteru Nariyama4, Keiji Umetani4 |
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5 |
Development of the Superconducting Proton Accelerator Systems using a High Magnetic Fields Design |
Chiyoda Technol1 ○Shinichi Gotoh1 |
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Break 15:30~15:45 |
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6 |
Study of Medical RI Production with Accelerator-based Neutron Sources |
Kyushu Univ.1, JAEA2 ○Tadahiro Kin1, Yasuki Nagai2, Yuichi Hatsukawa2, Hideo Harada2, Kentaro Ochiai2, Kosuke Takakura2, Chikara Konno2 |
|
7 |
Research on Rechargeable Batteries using Neutron |
High Energy Accelerator Research Organization1 ○Takashi Kamiyama1, Masao Yonemura1, Shuki Torii1, Miki Nagao1 |
|
8 |
Industrial Application of XAFS Analyses using Synchrotron Radiation |
JASRI1 ○Tetsuo Honma1 |
|
9 |
Battery Materials Research using Muon-Spin Spectroscopy |
Toyota Central R&D Labs., Inc.1 ○Jun Sugiyama1 |
Strongly-correlated oxide heterostructures - A new frontier of condensed mater physics |
September 11 13:30~18:00 |
11p-C9 - 1~10 |
|
1 |
High-mobility two-dimensional electrons at oxide heterointerfaces |
Univ. Tokyo1 ○Yusuke Kozuka1 |
|
2 |
Interface Dipole Engineering at Oxide Heterointerfaces and Fabrication of Metal Base Transistors |
Dept. of Advanced Materials Science, Univ. of Tokyo1, SLAC Stanford Univ.2 ○Takeaki Yajima1,2, Yasuyuki Hikita2, Makoto Minohara2, Christopher Bell2, Harold Hwang2 |
|
3 |
Quantum confinement of strongly correlated electrons in oxide artificial structures |
The Univ. of Tokyo1, UT-SRRO2, The Univ. of Tokyo3, JST-PRESTO4, KEK-PF5 ○Kohei Yoshimatsu1, Koji Horiba1,2, Teppei Yoshida3, Atsushi Fujimori3, Masaharu Oshima1,2, Hiroshi Kumigashira1,4,5 |
|
4 |
Control of Electronic Domains with Strongly Correlated Electrons in VO2 Nano-structures and Their Exotic Physical Properties |
ISIR, Osaka Univ.1 ○Kanki Teruo1, Tanaka Hidekazu1 |
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Break 15:30~15:45 |
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5 |
Observation and tailoring of nanoscale phase separation in manganite thin films |
CMRG & CERG, RIKEN-ASI1 ○Masao Nakamura1 |
|
6 |
Growth of high purity transition metal oxide thin films by molecular beam epitaxy with metalorganic gas sources |
RIKEN-ASI CMRG1, Univ. Tokyo2, RIKEN-ASI CERG3 ○Kei Takahashi1, Yuya Matsubara2,3, Masashi Kawasaki1,2,3, Yoshinori Tokura1,2,3 |
|
7 |
Two dimensional superconductivity on an oxide insulator by electric field effect |
Dept.Basic Science, Univ.Tokyo1, PRESTO-JST2 ○Kazunori Ueno1,2 |
|
8 |
Control of electronic phases in electrolyte-gated correlated electron oxides |
AIST1, JST-CREST2, ECNU3, Univ. of Tokyo4, JST-PRESTO5, Univ. of Tokyo6, CERG Riken7 ○Shutaro Asanuma1,2, Ping-hua Xiang3, Hiroyuki Yamada1, Hiroshi Sato1, Isao Inoue1,2, Hiroshi Akoh1,2, Akihito Sawa1,2, Kazunori Ueno4,5, Masashi Kawasaki6,7, Yoshihiro Iwasa6,7 |
|
9 |
Electric-field induced bulk phase transition in VO2 |
RIKEN-CERG/CMRG1, AIST2, CRIEPI3, Dept. Appl. Phys., Univ. Tokyo4 ○Masaki Nakano1, Keisuke Shibuya1,2, Daisuke Okuyama1, Takafumi Hatano1, Shimpei Ono1,3, Masashi Kawasaki1,4, Yoshihiro Iwasa1,4, Yoshinori Tokura1,4 |
|
10 |
Field effect switching of charge, sping and orbital orders in manganites thin film |
RIKEN ASI CERG&CMRG1, Fuji Electric Co., Ltd.2, CRIEPI3, NIMS4, RCAST Univ. Tokyo5, Dept. Appl. Phys., Univ. Tokyo6 ○Takafumi Hatano1, Zhigao Sheng1, Yasushi Ogimoto1,2, Naoki Ogawa1, Masaki Nakano1, Shinpei Ono1,3, Kenjiro Miyano4,5, Masashi Kawasaki1,6, Yoshihiro Iwasa1,6, Yoshinori Tokura1,6 |
Thin film technologies for displays and lightings in the next generation |
September 11 13:30~16:45 |
11p-C13 - 1~6 |
|
1 |
Development of high quality and highly efficient OLED lighting |
Panasonic Corporation1 ○Takuya Komoda1 |
|
2 |
Flexible Displays Driven by Organic Thin-Film Transistors |
Sony Corporation1 ○Mao Katsuhara1 |
|
3 |
TFT Technologies for Flexible Display |
総合研究所1 ○Manabu Ito1 |
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Break 15:00~15:15 |
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4 |
Development of gas barrier film for flexible display in future generation |
TOYOBO CO., LTD.1 ○Takashi Ebata1, Sachi Murakami1, Kyoko Inagaki1, Toshiyuki Oya1, Kiyoshi Iseki1 |
|
5 |
Sputtering process for large-scale depostion and semiconductor devices |
CANON ANELVA CORPORATION1 ○Takashi Nakagawa1 |
|
6 |
Development to large-sized Sputtiering system for Transparent oxide films. |
ULVAC,Inc.1 ○Junya Kiyota1 |
Generation of intense XUV~X-ray beams and applications |
September 11 13:30~17:45 |
11p-F6 - 1~9 |
|
1 |
Supply method of gadolinium targets for laser-produced 6.Xnm light source |
ILE-OsakaUniv.1 ○(M1)Teruyuki Ugomori1, Hiroaki Nishimura1, Shinsuke Fujioka1 |
|
2 |
Observation of the material ablation with laser-plasma EUV source |
Osaka Univ. Institute of Laser Engineering1, Osaka Sangyo Univ.2 ○(M2)Kazuyoshi Hane1, Shinsuke Fujioka1, Tianlong Zhang2, Mitsuhiro Kusaba2, Hiroaki Nishimura1 |
|
3 |
Femtosecond laser ablation observed by soft x-ray interferometry and reflective imaging |
STS The Univ. of Tokushima1, QuBS JAEA2, ISSP The Univ. of Tokyo3 ○Takuro Tomita1, Masaharu Nishikino2, Noboru Hasegawa2, Yasuo Minami3, Ryota Takei3, Motoyoshi Baba3, Kota Terakawa3, Takeshi Kaihori2, Toshimasa Morita2, Tetsuya Kawachi2, Mitsuru Yamagiwa2, Tohru Suemoto3 |
|
4 |
Gigawatt-scale isolated attosecond pulse and its application on nonlinear optics |
RIKEN1 ○Eiji Takahashi1 |
|
|
Break 14:45~15:00 |
|
|
5 |
Property of a laser-produced plasma extreme ultraviolet sources |
Utsunomiya University・CORE1 ○Takeshi Higashiguchi1 |
|
6 |
X-ray free electron laser "SACLA" |
JASRI1 ○Tadashi Togashi1 |
|
7 |
Oxide Soft X-ray Optical Elements |
Osaka City Univ.1 ○Hiroshi Kumagai1 |
|
|
Break 16:30~16:45 |
|
|
8 |
Soft X-ray Laser generation and Nanomodification of Metal Surface |
JAEA QuBS1, Russian Academy of Science2, Moscow Inst. of Phys. and Tech.3 ○Masaharu Nishikino1, Masahiko Ishino1, Anatory Faenov1,2, Momoko Tanaka1, Tatiana Pikuz1,2, Sergei Starikov2,3, Vladimir Stegailov2,3, Genry Norman2,3, Fortov Vladimit2, Igor Skobelev2,3, Takeshi Kaihori1, Tetsuya Kawachi1 |
|
9 |
Micromachining using EUV radiation from laser produced plasma |
Univ. of Tsukuba1, Kyushu Univ.2, Kyushu Univ.3, ESPRIT, AIST4 ○Tetsuya Makimura1, Shuichi Torii1, Kouta Okazaki2, Daisuke Nakamura2, Akihiko Takahashi3, Tatsuo Okada2, Hiroyuki Niino4, Murakami Kouichi1 |
Toward high-efficiency and low-cost thin (<100um) crystalline silicon solar cells |
September 11 13:30~17:30 |
11p-F7 - 1~9 |
|
1 |
Advantages and issues of thinner cSi solar cells ---towards thinner than 100 μm--- |
Toyota Technological Institute1, National Insitute of AIST2, University of Tsukuba3 ○Yutaka Hayashi1,2,3 |
|
2 |
R&D on 100μm thickness crystalline silicon solar cells |
Toyota Techonological Inst.1, Meiji Univ.2 ○Yoshio Ohshita1, Atsushi Ogura2 |
|
3 |
Relationship between Crystal Growth and Conversion Efficiency of
Crystalline-Silicon Solar Cells
|
RIAM, Kyushu Univ.1, NIMS2 ○Koichi Kakimoto1, Bing Gao1, Satoshi Nakano1, Yoshihiro Kangawa1, Hirofumi Harada2 |
|
4 |
Behavior of Light Element Impurities in Silicon Crystals - Characterization of O, C, and N by Infrared Absorption Spectroscopy - |
Kanagawa Ind. Tech. Center1 ○Haruhiko Ono1 |
|
|
Break 15:30~15:45 |
|
|
5 |
Fabrication and Evaluation of Crystalline Si Solar Cells with Ion Shower Doping |
Meiji Univ.1, Toyota Tech. Inst.2, JSPS Research Fellow3 ○(M2)Hiroki Hashiguchi1, Tomihisa Tachibana1,3, Mari Aoki2, Takuto Kojima2, Yoshio Ohshita2, Atsushi Ogura1 |
|
6 |
Suppression of multi-crystallization of MonoCast Si using functional grain boundaries |
IMR, Tohoku Univ.1, PRESTO, JST2 ○Kentaro Kutsukake1,2, Yutaka Ohno1, Yuki Tokumoto1, Noritaka Usami1, Ichiro Yonenaga1 |
|
7 |
Evaluation of multicrystalline silicon solar cells textured with acid solutions |
Seikei Univ.1, Nippon Kasei Chemical Co. Ltd.2 Yohei Eguchi1, Shinno-suke Endo1, Yuuma Oga1, Satoshi Haruyama1, ○Yoji Saito1, Syuji Abe2, Tetsuya Saito2, Tatsunobu Suzuki2, Yasukiyo Ejiri2, Syoji Sakamoto2 |
|
8 |
Passivation technologies for ultra thin silicon solar cells |
Univ. of Hyogo1, JST-CREST2 ○Shinichi Satoh1,2 |
|
9 |
High Efficiency Thin Crystalline Silicon Solar Cell BLACKSOLAR |
SHARP CORPORATION1 ○Kyotaro Nakamura1 |
Nano Interface Control Electrochemical Technology -for the fusion of industry and academia- |
September 11 13:30~16:30 |
11p-F8 - 1~7 |
|
1 |
Impinging and Drying Dynamics of Micro-scale Droplets: Particle Simulations |
Kyoto Univ.1 ○Mitsuhiro Matsumoto1 |
|
2 |
Fundamental study of resist removal-cleaning characteristics using cryogenic micro-nano solid nitrogen spray |
Tohoku Univ.1 ○Jun Ishimoto1 |
|
3 |
Micro mapping of metallic impurities using autoradiogram |
TOSHIBA CSRD1 ○Hiroshi Tomita1 |
|
4 |
Dynamic Observation of Nano-world in Solution Using High Speed Atomic Force Microscope |
Research Institute of Biomolecule Metrology1 ○Motoharu Shichiri1, Norito Kotani1, Akemi Kanegami1, Takashi Morii1, Takao Okada1 |
|
|
Break 15:00~15:15 |
|
|
5 |
Nanometer-scale characterization of organic and inorganic materials by gas adsorption |
BEL JAPAN Inc.1 ○Masayuki Yoshida1 |
|
6 |
Activity Report of the Water Charge Up WG and Recommendations for Further Research
|
Organo Corporation1 ○Daisaku Yano1 |
|
7 |
Professional Group on Nano Interface Electorochemical Technology, present and future |
Shizuoka Univ.1 ○Toshiyuki Sanada1 |
Technology for Chemical Energy Storage from Solar Energy |
September 11 13:30~17:45 |
11p-H7 - 1~9 |
|
1 |
Fundamental Aspects of Photoreactions at the Semiconductor/electrolyte Interface |
Osaka Univ.1 ○Yoshihiro Nakato1 |
|
2 |
First-Principles Simultaneous Treatment of Photo-Excitation and Carrier Splitting |
National Institute of Advanced Industrial Science and Technology1 ○Yoshiyuki Miyamoto1 |
|
3 |
Hydrogen generation/separation membrane composed of a bilayer of anodized TiO2 nanotube array and electroless-deposited palladium film |
Dept. of Electronic Sci. & Eng., Kyoto Univ.1 ○(PC)Masashi Hattori1, Kei Noda1 |
|
4 |
Quantum efficiency and charging mechanism of photorechargeable TiO2-polyaniline composite films |
Kagoshima Univ.1 ○Teruaki Nomiyama1, Daiki Arima1, Yuta Nagatomo1, Yuji Horie1 |
|
5 |
Effect of the Electrolyte on AlGaN/GaN Photoelectrochemical Electrode |
Tokyo Univ.1, RCAST2, Glorbal Solar+ Initiative3 ○Akihiro Nakamura1, Masakazu Sugiyama1, Yoshiaki Nakano2, Katsushi Fujii2,3 |
|
|
Break 15:30~15:45 |
|
|
6 |
Development of Photoelectrodes against the Sunlight driven direct water splitting |
Tokyo Univ.1 ○Tsutomu Minegishi1, Kazunari Domen1 |
|
7 |
Development of H2 energy storage and transportation system for large scale |
R&Dセンター1 ○Yoshimi Okada1, Kenichi Imagawa1 |
|
8 |
Future prospect of Artificial Photosynthesis |
Tokyo Metropolitan Univ.1 ○Haruo Inoue1 |
|
9 |
Artificial Photosynthesis by Semiconductor/Metal-Complex Photocatalysts - Direct Solar Synthesis of Organic Substances from CO2 and H2O. |
Toyota Central R&D Labs., Inc.1 ○Takeshi Morikawa1, Shunsuke Sato1, Takeo Arai1, Keiko Uemura1, Tomiko Suzuki1, Tsutomu Kajino1 |
JSAP-OSA Symposium |
OSA President Special Lecture |
September 12 9:00~10:00 |
12a-G2 - 1 |
|
1 |
Seeing Electrons in Graphene: A Model 2-Dimensional Material [Invited] (60 min.) |
Columbia Univ., USA1 ○Tony F. Heinz1 |
Plasmonics: imaging |
September 12 15:30~17:15 |
12p-G1 - 8~13 |
|
8 |
Optical nanoimaging through plasmonics and beyond plasmonics [Invited](30 min.) |
Osaka Univ., Japan1 ○Prabhat Verma1 |
|
9 |
Super-Resolution Imaging by Saturable Scattering of Single Gold Nanoparticle (15 min.) |
National Taiwan Univ., Taiwan1, Osaka Univ., Japan2 ○Hsuan Lee1, Tung-Yu Su1, Yasuo Yonemaru2, Ming-Ying Lee1, Masahito Yamanaka2, Ko-Fan Huang1, Satoshi Kawata2, Katsumasa Fujita2, Shi-Wei Chu1 |
|
10 |
Highly sensitive tip-enhanced nanoscopy and its applications to ultrafast nonlinear spectroscopy (15 min.) |
RIKEN, Japan1, Osaka Univ., Japan2, Tohoku Univ., Japan3 ○Norihiko Hayazawa1, Kentaro Furusawa1,3, Satoshi Kawata1,2 |
|
11 |
Tip-enhanced Raman microscopy through tip-sample distance control (15 min.) |
Osaka Univ., Japan1 ○Jun Yu1, Yuika Saito1, Prabhat Verma1, Satoshi Kawata1 |
|
12 |
Plasmon hybridization at the gap between a metallic nanotip and a nanofilm system for tip-enhanced Raman spectroscopy (15 min.) |
Osaka Univ., Japan1 ○Kazumasa Uetsuki1, Prabhat Verma1, Satoshi Kawata1 |
|
13 |
Three dimensional light manipulation by structured gold nanobumps (15 min.) |
National Taiwan Univ., Taiwan1 ○Hung Guei Tsai1, Chia Ming Chang1, Cheng Hung Chu1, Ming Lun Tseng1, Yao-Wei Huang1, Hsin Wei Huang1, Bo Han Chen1, Ding-Wei Huang1, Din Ping Tsai1 |
Plasmonics: imaging |
September 13 9:30~12:00 |
13a-G1 - 1~9 |
|
1 |
Imaging of Surface Plasmon Polariton by Cathodoluminescence (15 min.) |
Tokyo Inst. of Technology, Japan1 ○Naoki Yamamoto1 |
|
2 |
Structure Dependence of Surface Plasmon Enhanced Photoluminescence (15 min.) |
Kyushu Univ., Japan1, Kyoto Univ., Japan2 ○Xiaoying Xu1, Mitsuru Funato2, Yoichi Kawakami2, Koichi Okamoto1, Kaoru Tamada1 |
|
3 |
Application of the Plasmonic Chip to the Enzyme-Linked ImmunoSorbent Assay (ELISA) for Sensitive Fluorescence Imaging (15 min.) |
AIST, Japan1, Kwansei Gakuin Univ., Japan2 Tomomi Taga1, ○Keiko Tawa1 |
|
4 |
Bright Fluorescence Images of Neurons Cultured on a Plasmonic Chip with Upright-Inverted Microscope (15 min.) |
Kansai Univ., Japan1, AIST, Japan2, Hokkaido Univ., Japan3 ○Chikara Yasui1, Keiko Tawa2, Chie Hosokawa2, Junji Nishii3, Hiroyuki Aota1 |
|
|
Break 10:30~10:45 |
|
|
5 |
Light propagation and nano-focusing properties in 1D chiral metamaterial [Invited](30 min.) |
National Taiwan Normal Univ., Taiwan1 ○Wei-Chih Liu1 |
|
6 |
Fabrication of near-field plasmonic tips by photoreduction for strong enhancement in tip-enhanced Raman spectroscopy (15 min.) |
Osaka Univ., Japan1, Tokyo Inst. of Technology, Japan2 ○Takayuki Umakoshi1, Taka-aki Yano2, Saito Yuika1, Prabhat Verma1 |
|
7 |
Nanoscale Circular Dichroism of 2D Chiral Nanostructures (15 min.) |
Inst. for Molecular Science, Japan1 ○Tetsuya Narushima1, Hiromi Okamoto1 |
|
8 |
The pre-ablation features formed by focusing femtosecond laser beam with the dual axicons to c-Si in a vacuum (15 min.) |
Tokai Univ., Japan1, SWCC Showa Cable Systems, Japan2, Forum Engineering, Japan3, Josai Junior Highschool, Japan4 ○Takashi Yagi1, Go Odachi2, Kento Hara3, Ryosuke Sakamoto4 |
Plasmonics:materials and devices |
September 11 9:00~18:30 |
11a-G1 - 1~10 |
|
1 |
Fabrication of Plasmonic Spectral Filter for Ubiquitous Photonics (1) (15 min.) |
AIST Kansai, Japan1, Osaka Univ., Japan2 ○Kensuke Murai1, Koji Ohta1, Yasushi Oshikane2, Takaya Higashi2, Fumihiko Yamamoto2, Motohiro Nakano2, Haruyuki Inoue2 |
|
2 |
Local-Plasmon-Resonator Array Fabricated in SOI Substrates (15 min.) |
NIMS, Japan1 ○Masanobu Iwanaga1, Bongseok Choi1 |
|
3 |
Large-scale Fabrication of Plasmonic Metal Nanostructures for Sensor Applications (15 min.) |
RIKEN, Japan1, JST-PRESTO, Japan2, Hokkaido Univ., Japan3 ○Wakana Kubo1,2, Takuo Tanaka1,3 |
|
4 |
Fast Fabrication of Plasmonic Ag Nanostructure by Using Femtosecond Laser (15 min.) |
National Taiwan Univ., Taiwan1, National Taiwan Ocean Univ., Taiwan2, Univ. of Massachusetts Boston, USA3, Academia Sinica, Taiwan4 ○Ming Lun Tseng1, Yao-Wei Huang1, Hsin Wei Huang1, Chia Min Chang1, Ding-Wei Huang1, Hai-Pang Chiang2, Greg Sun3, Din Ping Tsai4 |
|
5 |
MicroFabricated Radial Polarization Converter based on Gold Plasmonic Nanoslit (15 min.) |
Tokyo Univ. of Agriculture and Technology, Japan1 ○Miho Ishii1, Yuzuru Kuramochi1, Kenichi Ida1, Kentaro Iwami1, Norihiro Umeda1 |
|
6 |
Optimization and fabrication of metallic nanotip for strong enhancement in TERS (15 min.) |
Osaka Univ., Japan1 ○Imad Maouli1, Yuika Saito1, Prabhat Verma1, Satoshi Kawata1 |
|
|
Break 10:30~10:45 |
|
|
7 |
Optical nanofocusing and enhanced Raman scattering in vertical optical antennas [Invited](30 min.) |
Shanghai Jiao Tong Univ., China1 ○Tian Yang1, Jing Long1, Hui Yi1, Xiaolong He1, Baoan Liu1 |
|
8 |
Localized Charges in Plasmonic Inverted Pyramidal Nanostructures with the Tips |
National Taiwan Univ., Taiwan1, Industrial Technology Research Inst., Taiwan2 Shih-Wen Chen1, Hsin-Hung Cheng1, Ying-Yu Chang1, Jen-You Chu2, Ding-Zheng Lin2, Ying-Ping Chen2, ○Jia-Han Li1 |
|
9 |
Near-field optical response of periodically arrayed plasmonic nanogap antennas |
Hokkaido Univ., Japan1 ○Sakai Kyousuke1, Nomura Kensuke1, Tanaka Yoshito1, Sasaki Keiji1 |
|
10 |
Selective Enhancement in Infrared Absorption Spectra via Metal-hole Allay Plasmonic Crystal Micro-structures |
Yokohama National Univ., Japan1, Swinburne Univ. of Technology, Australia2, Melbourne Centre for Nanofabrication, Australia3 ○Yoshiaki Nishijima1, Hiroki Nigorinuma1, Lorenzo Rosa2, Juodkazis Saulius2 |
|
|
Lunch 12:00~13:30 |
|
11p-G1 - 1~17 |
|
1 |
Generation of EUV Radiation by Plasmonic Field Enhancement using Funnel-waveguides [Invited](30 min.) |
KAIST, Korea1 In-Yong Park1, Joonhee Choi1, Dong-Hyub Lee1, Seunghwoi Han1, Seungchul Kim1, ○Seung-Woo Kim1 |
|
2 |
Silica coated gold nanoparticles 2D array for enhanced fluorescence sensing (15 min.) |
Tsukuba Univ., Japan1, NIMS, Japan2 ○Francesca Pincella1, Katsuhiro Isozaki2, Kazushi Miki1 |
|
3 |
Local electromagnetic fields of surface plasmons on metallic oxide materials (15 min.) |
The Univ. of Tokyo, Japan1 ○Matsui Hiroaki1, Tabata Hitoshi1 |
|
4 |
Interaction Effect in Floated Optical Bowtie Nanoantennas (15 min.) |
International Center for Materials NanoArchitectonics (MANA), NIMS, Japan1 ○Chung Hoang1, Thang Dao1, Jung-Sub Wi1, Masakazu Aono1, Tadaaki Nagao1 |
|
5 |
Visible Light Plasmonic Enhancement of Photocatalytic Activity of ZnO Nanowires (15 min.) |
NIMS, Japan1 ○Thang Dao1, Nono Arai1, Masud Rana1, Chung Hoang1, Gui Han1, Toshihide Nabatame1, Tadaaki Nagao1 |
|
|
Break15:00~15:15 |
|
|
6 |
Excitation of antisymmetric SPP modes in metal-insulator-metal structures by embedded dye molecules (15 min.) |
Kobe Univ., Japan1 ○Shinji Hayashi1, Shu Okada1, Dai Nozaki1, Minoru Fujii1 |
|
7 |
Investigation of the surface plasmon polariton excitation conditions at a metal-semiconductor contact interface by simulation of reflectance characteristics (15 min.) |
Mie Univ., Japan1 ○Atsushi Motogaito1, Shohei Nakamura1, Hideto Miyake1, Kazumasa Hiramatsu1 |
|
8 |
Polarization-independent plasmonic porous Au absorber (15 min.) |
National Dong Hwa Univ., Taiwan1 Wen-Ting Kung1, Chih-Jui Yu1, ○Chih-Ming Wang1 |
|
9 |
Plasmonic Behaviors of Au Nanorings in Solutions of Controlled Geometry (15 min.) |
National Taiwan Univ., Taiwan1 ○Hung-Yu Tseng1, Wei-Fang Chen1, Chih-Chung (C. C.) Yang1 |
|
10 |
Absorption-Induced Transparency in Plane Metallic Films (15 min.) |
RIKEN, Japan1, Yokohama City Univ., Japan2 ○Takayuki Okamoto1, Kentaro Takatori2, Ruggero Micheletto2, Koji Ishibashi1 |
|
11 |
Local surface plasmon resonance of Ag/Co nanostructures selfassemblied in TiO2 films (15 min.) |
The Univ. of Tokyo, Japan1, JST-CREST, Japan2, KAST, Japan3 ○Anri Watanabe1, Katsura Ikemiya1, Akira Chikamatsu1,2, Yasushi Hirose1,2,3, Tetsuya Hasegawa1,2,3 |
|
|
Break 16:45~17:00 |
|
|
12 |
Tunable metal nano-structures for DUV plasmonics (15 min.) |
Osaka Univ., Japan1, RIKEN, Japan2 ○Koichi Watanabe1, Yuika Saito1, Atsushi Taguchi2, Satoshi Kawata1 |
|
13 |
Properties of Synthesized Nanoparticles through Characteristics of Solution Plasma (15 min.) |
Nagoya Univ., Japan1 ○YongKang Heo1, Maria Bratescu1, Nagahiro Saito1 |
|
14 |
The Morphology of NPs on their local refractive index sensitivity in LSPR spectrum (15 min.) |
Kyushu Univ., Japan1 ○Bin Chen1 |
|
15 |
Plasmonic Properties of Gold Trimer Ring Fabricated through DNA-Templating (15 min.) |
RIKEN, Japan1, Hokkaido Univ., Japan2 ○Ryoko Watanabe-Tamaki1, Atsushi Ishikawa1, Takuo Tanaka1,2 |
|
16 |
Plasmons in 1-D and 2-D Optical Nanoantennas: A Combination of Low Electron Energy Loss and Optical Spectroscopy (15 min.) |
NIMS, Japan1 Chung Vu HOANG1, Gui HAN1, Duy Thang DAO1, ○Tadaaki NAGAO1 |
|
17 |
Simulation of arrays of metal nano-particles using a monochromatic recursive convolution finite-difference time-domain method (15 min.) |
Sumitomo Chemical Co. Ltd., Japan1 ○Saswatee Banerjee1 |
Plasmonics:materials and devices |
September 12 10:15~15:15 |
12a-G1 - 1~6 |
|
1 |
Optical Properties of Au-Ag core-shell Nanorods on a Solid Surface [Invited](30 min.) |
Kyushu Univ., Japan1 ○Yasuro Niidome1, Yukiko Tsuru1, Yuki Hamasaki1, Naotoshi Nakashima1 |
|
2 |
Correlation of Transmission Spectrum between Plasmonic Nano Slit and Non-Plasmonic Nano Slit (15 min.) |
National Cheng-Kung Univ., Taiwan1 ○Shihhui Chang1, YuLun Su1 |
|
3 |
Tip-enhanced Raman spectroscopic study of local interaction in polymer nanocomposites containing carbon nanotubes (15 min.) |
Kwansei Gakuin Univ., Japan1, AIST, Japan2, UNISOKU, Japan3 ○Toshiaki Suzuki1, Xinlei Yan1, Takeshi Miyake1, Yasutaka Kitahama1, Harumi Sato1, Tamitake Itoh2, Takeshi Miura3, Yukihiro Ozaki1 |
|
4 |
Dispersion of the third order nonlinear optical response of Ag nanoparticles with different sizes (15 min.) |
Univ. of Tsukuba, Japan1, NIMS, Japan2, Osaka Univ., Japan3 ○Rodrigo Sato1, Yoshihiko Takeda2, Masato Ohnuma2, Takahisa Ohno2, Hiroyoshi Momida3 |
|
5 |
Self-Assembly and magneto-optical properties of noble metal - ferromagnetic metal hybrid nanoparticles (15 min.) |
The Univ. of Tokyo, Japan1 Ikemiya Katsura1, ○Konishi Kuniaki1, Fujii Eiko1, Kogure Toshihiro1, Hasegawa Tetsuya1, Kuwata-Gonokami Makoto1 |
|
6 |
Realization of a ppt Sensitivity Plasmonic Sensor for Monitoring Ionic Mercury in Environmental Water (15 min.) |
International Center for Materials NanoArchitectonics (MANA), NIMS, Japan1 ○Chung Hoang1, Makiko Oyama1, Masud Rana1, Masakazu Aono1, Tadaaki Nagao1 |
|
|
Lunch 12:00~13:30 |
|
12p-G1 - 1~7 |
|
1 |
Self-organized assembly of metamaterials (15 min.) |
RIKEN, Japan1, Hokkaido Univ., Japan2 ○Takuo Tanaka1,2 |
|
2 |
Terahertz Plasmonics and Metamaterials (15 min.) |
Univ. of Glasgow, UK1 ○James Grant1, Yong Ma1, Shimul Saha1, David Cumming1 |
|
3 |
Graphene for Infrared Plasmonics and Metamaterials (15 min.) |
RIKEN, Japan1, Hokkaido Univ., Japan2 ○Atsushi Ishikawa1, Takuo Tanaka1,2 |
|
4 |
Influence of intrinsic electronic properties on subwavelength optics in metamaterials made by superconducting MgB2 (15 min.) |
Chinese Academy of Sciences, China1 ○Xianggang Qiu1, Xu Fang1 |
|
5 |
Magnetic plasmon induced transparency in three dimensional metamaterials (15 min.) |
National Taiwan Univ., Taiwan1, Univ. of Massachusetts Boston, USA2, Nanyang Technological Univ., Singapore3, Univ. of Southampton, UK4, Academia Sinica, Taiwan5 ○Pin Chieh Wu1, Wei Ting Chen1, Kuang-Yu Yang1, Chih Ting Hsiao1, Greg Sun2, Ai Qun Liu3, Nikolay I. Zheludev4, Din Ping Tsai5 |
|
6 |
Plasmonic lasing spacer associated with toroidal metamolecule at optical frequencies (15 min.) |
National Taiwan Univ., Taiwan1, University of Southampton,UK2, Academia Sinica, Taiwan3 ○Chen Wei-Ting1, Huang Y. -W1, Wu P. C.1, Fedotov V. A.2, Zheludev N. I.2, Tsai D. P.3 |
|
7 |
Optical Hybrid-Superlens-Hyperlens for Super-resolution Imaging |
National Taiwan Univ., Taiwan1, National Cheng Kung Univ., Taiwan2 ○You Zhe Ho1, Bo Han Cheng2, Yung-Chiang Lan2, Din Ping Tsai1 |
Nanocarbon Photonics |
September 12 10:15~14:45 |
12a-G2 - 2~7 |
|
2 |
Nanocarbon photonics for ultrafast pulse generation and signal processing [Invited](30 min.) |
The Univ. of Tokyo, Japan1 ○Shinji Yamashita1 |
|
3 |
Optoelectronic Properties of Single-Wall Carbon Nanotubes [Invited](30 min.) |
Rice Univ., USA1 Sebastien Nanot1, Erik H. Haroz1, Jihee Kim1, Robert H. Hauge1, ○Junichiro Kono1 |
|
4 |
Photophysics of Localized Electronic States in Oxygen-doped Carbon Nanotubes (15 min.) |
Kyoto Univ., Japan1, JST-PRESTO, Japan2, The Univ. of Tokyo, Japan3 ○Yuhei Miyauchi1,2, Munechiyo Iwamura1, Shinichiro Mouri1, Tadashi Kawazoe3, Motoichi Ohtsu3, Kazunari Matsuda1 |
|
5 |
Optimization of Single-Walled Carbon Nanotube/Silicon Heterojunction Solar Cells (15 min.) |
The Univ. of Tokyo, Japan1 ○Kehang Cui1, Shuichiro Omiya1, Pei Zhao1, Theerapol Thurakitseree1, Taiki Inoue1, shinya Aikawa1, Shohei Chiashi1, Shigeo Maruyama1 |
|
6 |
3D Microstructural Single Wall Carbon Nanotube / Polymer Composites
Fabricated by Two Photon Lithography (15 min.) |
Osaka Univ., Japan1, Rice Univ., USA2 ○Shota Ushiba1, Satoru Shoji1, Junichiro Kono2, Satoshi Kawata1 |
|
7 |
Reducing Graphene Oxide for Electronic Devices (15 min.) |
Jilin Univ., China1 ○Xian-Bin Li1, Yong-Lai Zhang1, Li Guo1, Sheng-Yi Xie1, Qi-Dai Chen1, Hong-Bo Sun1 |
|
|
Lunch 12:15~13:45 |
|
12p-G2 - 1~3 |
|
1 |
Optoelectronic properties in low-dimensional carbon materials [Invited](30 min.) |
Sungkyunkwan Univ., Korea1 ○Young Hee Lee1, Chandan Biswas1 |
|
2 |
Intense Terahertz-pulse Induced Highly Efficient Carrier Transport in Graphene (15 min.) |
Kyoto Univ., Japan1 ○Shuntaro Tani1, Francois Blanchard1, Koichiro Tanaka1 |
|
3 |
A Theoretical Study of an Influence of a Time Dependent External Field on Electronic Transport in Graphene (15 min.) |
Kobe Univ., Japan1 ○Takashi Akiyama1, Matsuto Ogawa1, Satofumi Souma1 |
Biophotonics |
September 11 9:30~18:05 |
11a-G2 - 1~6 |
|
1 |
Real-Time Raman Endoscopy for In Vivo Diagnosis of Gastric Precancer and Cancer During Clinical Gastroscopic Inspections [Invited](40 min.) |
National Univ. of Singapore, Singapore1 ○Zhiwei Huang1 |
|
2 |
Detection of Lipid Uptake by Triglyceride Deposit Cardiomyovasculopathy-indicated Fibroblast Using CARS Microscopy (15 min.) |
Osaka Univ., Japan1 ○Harsono Cahyadi1, Hirohiko Niioka1, Ken-ichi Hirano1, Chiaki Ikegami-Nomura1, Tsutomu Araki1, Mamoru Hashimoto1 |
|
3 |
Independent Component Analysis of Stimulated Raman Spectral Images (15 min.) |
Osaka Univ., Japan1, JST-PRESTO, Japan2 ○Yasuyuki Ozeki1,2, Kazuyoshi Itoh1 |
|
4 |
Complementary spatial and spectral analysis of the hyperspectral Raman data of cells (15 min.) |
Osaka Univ., Japan1, JST-ERATO, Japan2, RIKEN, Japan3 ○Almar Palonpon2, Masaya Okada1, Satoshi Kawata1,3, Mikiko Sodeoka2,3, Katsumasa Fujita1,2 |
|
5 |
Raman microscope imaging of non-labeled apoptotic cells (15 min.) |
Osaka Univ., Japan1, JST-ERATO, Japan2, RIKEN, Japan3 ○Masaya Okada1, Nicholas Smith1, Almar Palonpon2, Satoshi Kawata1,3, Mikiko Sodeoka2,3, Katsumasa Fujita1,2 |
|
6 |
Deep UV Raman microscopy for resonance imaging of nucleotide distributions in a cell (15 min.) |
RIKEN, Japan1, Osaka Univ., Japan2 ○Yasuaki Kumamoto1, Atsushi Taguchi1, Nicholas Smith2, Satoshi Kawata2 |
|
|
Lunch 11:25~12:55 |
|
11p-G2 - 1~17 |
|
1 |
Improvement of penetration depth and spatial resolution in "in vivo" two-photon microscopy [Invited](40 min.) |
Hokkaido Univ., Japan1 ○Tomomi Nemoto1 |
|
2 |
Observe the Signal Propagation on Motor Neuron in Drosophila Larvae with Voltage Sensitive Dye and High-Speed Scanning Microscopy (15 min.) |
National Taiwan Univ., Taiwan1, National Tsing Hua Univ., Taiwan2 ○Hen-Yi Lin1, Chen-Li Lin1, Li-An Chu2, Ann-Shyn Chiang2, Yen-Yin Lin2, Shi-Wei Chu1, Shi-Wei Chu1 |
|
3 |
Real-time optical diagnosis of rat brain locally exposed to a shock wave (15 min.) |
National Defense Medical College Research Inst., Japan1, Tokyo Univ. of Agriculture and Technology, Japan2, National Defense Medical College, Japan3 ○Satoko Kawauchi1, Shunichi Sato1, Izumi Nishidate2, Satoru Takeuchi3, Hiroshi Nawashiro3, Hiroshi Ashida1 |
|
4 |
Chirality Study inside Biological Tissue by Second Harmonic Generation Circular Dichroism (15 min.) |
National Taiwan Univ., Taiwan1 ○Kuo-Jen Hsu1, Hsuan Lee1, Guan-Yu Zhuo1, Shi-Wei Chu1 |
|
5 |
Second Harmonic Imaging to Distinguish Grana and Starch inside an Intact Leaf (15 min.) |
National Taiwan Univ., Taiwan1 ○Mei-Yu Chen1, Guan-Yu Zhuo1, Po-Fu Chen1, Wei-Lin Chang1, Kuo-Jen Hsu1, Pei-Chun Wu1, Tsung-Yuan Hsieh1, Tzu-Ming Liu2, Shi-Wei Chu1 |
|
6 |
Near infrared imaging of leaf water content under photosynthesis (15 min.) |
Osaka Univ., Japan1 ○Seiichi Uoshita1, Taiki Minami1, Yasushi Inouye1 |
|
|
Break14:50~15:05 |
|
|
7 |
Imaging Biomolecules with Stokes-polarimeter based Second Harmonic Generation Microscopy (15 min.) |
National Yang-Ming Univ., Taiwan1 ○Nirmal Mazumder1, Jianjun Qiu1, Chih-Wei Hu1, Fu-Jen Kao1 |
|
8 |
Fluorescence Lifetime Imaging and Anisotropy Measurement via Stimulated Emission (15 min.) |
National Yang-Ming Univ., Taiwan1, Academia Sinica, Taiwan2 ○Po-Yen Lin1,2, Thlio Dellwig1, Shin-Shian Lee1, Fu-Jen Kao1 |
|
9 |
Saturated excitation (SAX) microscopy; high depth-resolution fluorescence imaging (15 min.) |
Osaka Univ., Japan1 ○Masahito Yamanaka1, Nicholas Smith1, Satoshi Kawata1, Katsumasa Fujita1 |
|
10 |
Multimodal Imaging via Light Microscopy and Cathodoluminescence Microscopy for Biological Specimens with Rare-earth Doped Nanophosphors (15 min.) |
Osaka Univ., Japan1, Osaka Dental Univ., Japan2, ULVAC Inc., Japan3 ○Taichi Furukawa1, Hirohiko Niioka1, Masayoshi Ichimiya2, Tomohiro Nagata3, Masaaki Ashida1, Tsutomu Araki1, Mamoru Hashimoto1 |
|
11 |
Multimodal label-free imaging through combined Raman spectroscopy and quantitative phase imaging (15 min.) |
Osaka Univ., Japan1 ○Nicolas Pavillon1, Alison Hobro1, Katsumasa Fujita1, Nicholas Smith1 |
|
12 |
Optical control of cell signalling, contraction and action potentials (15 min.) |
Osaka Univ., Japan1 ○Nicholas Smith1, Nicolas Pavillon1, Jun Ando1, Yasuaki Kumamoto1, Katsumasa Fujita1, Satoshi Kawata1 |
|
|
Break16:35~16:50 |
|
|
13 |
Utilization of Coherent Lateral Leakage Radiation from Thin-Ridge SOI Waveguides for Integrated Optical Evanescent Biosensing (15 min.) |
RMIT Univ., Australia1 ○Kiplimo Yego1, Thach G. Nguyen1, Arnan Mitchell1 |
|
14 |
Localized Surface Plasmon Sensing of Single Influenza Virus with Specific Subtype (15 min.) |
Muroran Inst. of Technology, Japan1, National Inst. of Infectious Disease, Japan2 ○Jun Ning1, Kotaro Nagata1, Hideki Hasegawa2, Hiroshi Kano1 |
|
15 |
Fluorescence Analysis of Micro-patterned Bacterial Light-harvesting 2 Complexes on a Gold Surface (15 min.) |
The Univ. of Electro-Communications, Japan1, Nagoya Inst. of Technology, Japan2, Nagoya Municipal Industrial Research Inst., Japan3, Tokyo Metropolitan Univ., Japan4, Osaka City Univ., Japan5 ○Rei A. Furukawa1, Masaharu Kondo2, Shunsuke Yajima2, Shunsuke Sakai2, Kouji Iida3, Takehisa Dewa2, Keizo Shimada4, Kenji V. P. Nagashima4, Hideki Hashimoto5, Mamoru Nango5 |
|
16 |
Counteracting Brownian diffusion in three dimensions for prolonged observations of freely diffusing single fluorescent nanoparticles (15 min.) |
Univ. of Tennessee Space Inst., USA1 ○Lloyd M Davis1, James A Germann1, Jason K King1, Brian K Canfield1 |
|
17 |
Synthesis and characterization of green-emitting Pt8 nanoclusters (15 min.) |
Osaka Univ., Japan1, RIKEN, OLABB, Osaka Univ., Japan2 ○Koichi Aoki1, Shin-ichi Tanaka1, Atsushi Muratsugu1, Hidekazu Ishitobi1, Takashi Jin2, Yasushi Inouye1 |
Medical Photonics |
September 12 15:00~18:00 |
12p-G2 - 4~12 |
|
4 |
Ultrahigh Resolution Optical Coherence Tomography using Supercontinuum Sources [Invited](30 min.) |
Nagoya Univ., Japan1 ○Norihiko Nishizawa1, Shutaro Ishida1 |
|
5 |
Quantitative evaluation of mental sweating of eccrine sweat glands on a human fingertip by optical coherence tomography (15 min.) |
Osaka Univ., Japan1 ○Masato Ohmi1 |
|
6 |
Three-dimensional Optical Doppler Tomography and Optical Angiography (15 min.) |
National Taiwan Univ., Taiwan1 ○Ting-Ta Chi1, Chiung-Ting Wu1, Chen-Chin Liao1, Yi-Chou Tu1, Chih-Chung (C. C.) Yang1 |
|
7 |
In vivo determination of visible to near-infrared optical properties of rat brain using single reflection fiber probe with two source-collector geometries (15 min.) |
Tokyo Univ. of Agriculture and Technology, Japan1, National Defense Medical College, Japan2, Yamagata Univ., Japan3 ○Izumi Nishidate1, Chiharu Mizushima1, Yoshida Keiichiro1, Satoko Kawauchi2, Shunichi Sato2, Manabu Sato3 |
|
|
Break16:15~16:30 |
|
|
8 |
Biomedical Applications of Au Nanorings with Long-wavelength Localized Surface Plasmon Resonance [Invited](30 min.) |
National Taiwan Univ., Taiwan1 Hung-Yu Tseng1, Wei-Fang Chen1, Ting-Ta Chi1, Chiung-Ting Wu1, Chen-Chin Liao1, Yi-Chou Tu1, ○Chih-Chung Yang1 |
|
9 |
Label-free Observation and Principle Component Analysis of Mouse Tissue by Video-rate Stimulated Raman Scattering Microscope (15 min.) |
Canon Inc., Japan1, Osaka Univ., Japan2 ○Yoichi Otsuka1, Yasuyuki Ozeki2, Shuya Satoh1, Wataru Umemura2, Hiroyuki Hashimoto1, Chidane Ouchi1, Kazuyoshi Itoh2 |
|
10 |
Live cell imaging using high resolution fluorescence microscopy with direct electron beam excitation (15 min.) |
Shizuoka Univ., Japan1, JST-CREST, Japan2, Hamamatsu Univ. School of Medicine, Japan3 ○Yasunori Nawa1, Wataru Inami1,2, Atsushi Ono1,2, Sheng Lin3, Yoshimasa Kawata1,2, Susumu Terakawa2,3 |
|
11 |
Enhanced cell membrane permeability by using multi-microsphere lens focusing of burst mode of low-intensity 80 MHz femtosecond lasers (15 min.) |
Keio Univ., Japan1 ○Tatsuki Mitsuhashi1, Mitsuhiro Terakawa1 |
|
12 |
Photoacoustic microscopy with two-photon absorption by femtosecond, sub-nanosecond, and nanosecond pulse lasers (15 min.) |
Kyoto Prefectural Univ. of Medicine, Japan1 ○Yoshihisa Yamaoka1, Yoshinori Harada1, Tetsuro Takamatsu1 |
Lasers, Laser Applications |
September 13 9:00~17:45 |
13a-G2 - 1~10 |
|
1 |
Promise on Giant Micro-photonics for Pulse-Gap [Invited](30 min.) |
Inst. for Molecular Science, Japan1 ○Takunori Taira1 |
|
2 |
High-Power, High-Brightness Beam Combining of Semiconductor and Fiber Lasers [Invited](30 min.) |
MIT Lincoln Laboratory, USA1 ○Tso Yee Fan1 |
|
3 |
Femtosecond Pulse Generation by Actively Mode-Locked Fiber Ring Laser (15 min.) |
Ritsumeikan Univ., Japan1 ○Dang Trang Nguyen1, Akio Muramatsu1, Akihiro Morimoto1 |
|
4 |
High Repetition Rate Operation of Megawatt Peak Power Microchip Laser (15 min.) |
Inst. for Molecular Science, Japan1 ○Rakesh Bhandari1, Takunori Taira1 |
|
|
Break 10:30~10:45 |
|
|
5 |
Evaluation of a single Ca+ clock by an optical comparison against a Sr lattice clock (15 min.) |
National Inst. of information and Communications Technology, Japan1 ○Kensuke Matsubara1, Hidekazu Hachisu1, Shigeo Nagano1, Ying Li1, Asahiko Nogami1, Clayton Locke1, Kazuhiro Hayasaka1, Tetsuya Ido1 |
|
6 |
High-efficiency continuous production of hyperpolarized 129Xe using line-narrowed diode lasers (15 min.) |
National Inst. of Advanced Industrial Science and Technology, Japan1, Aurea Works Co., Japan2, Toyoko Kagaku Co. Ltd., Japan3 ○Mineyuki Hattori1, Takashi Hiraga1, Naohiro Kaga2, Norio Ohtake3 |
|
7 |
Pulsed BaWO4 Raman amplifier at 1180 nm (15 min.) |
Shandong Univ., China1 Cong Wang1, ○Xingyu Zhang1, Qingpu Wang1, Lei Li1, Zhenhua Cong1, Xiaohan Chen1, Zhaojun Liu1, Huihua Xu1, Yuangeng Zhang1, Weitao Wang1 |
|
8 |
Generation of Phase Conjugate Light Using CCD Array and Liquid Crystal Panel (15 min.) |
Tokyo Inst. of Technology, Japan1, Univ. of Tokyo, Japan2, International Christian Univ., Japan3 ○Kotomi Kawakami1, Shigeaki Uchida2, Hideki Okamura3 |
|
9 |
Optical multiple-image security system based on phase encoding algorithm in the Fresnel transform domain (15 min.) |
Chung Chou Univ. of Science and Technology, Taiwan1 ○Hone-Ene Hwang1, Ming-Chun Chien1, Gwo-Huei Yang1 |
|
10 |
Coherent analog computer using injection-locked laser network systems (15 min.) |
National Inst. of Informatics, Japan1, Nihon Univ., Japan2, Tokyo Univ., Japan3, Stanford Univ., USA4 ○Shoko Utsunomiya1, Naoto Namekata2, Kenta Takata3, Kai Wen4, Javed Rouf3, Kai Yan3, Shuichiro Inoue2, Yoshihisa Yamamoto4 |
|
|
Lunch 12:15~13:45 |
|
13p-G2 - 1~13 |
|
1 |
Octave-wide mid-infrared frequency comb source for spectroscopic medical breath analysis [Invited](30 min.) |
Stanford Univ., USA1 ○Konstantin Vodopyanov1 |
|
2 |
Application of gapless terahertz frequency comb for gas spectroscopy (15 min.) |
Osaka Univ., Japan1, AIST, Japan2, Univ. of Tokushima, Japan3, Univ. of Littoral Opal Coast, France4 ○Yi-Da Hsieh1, Yuki Iyonaga1, Yoshiyuki Sakaguchi1, shuko Yokoyama1, Hajime Inaba2, Kaoru Minoshima2, Tsutomu Araki1, Francis Hindle4, Takeshi Yasui3 |
|
3 |
Three-dimensional imaging of internal structure using line-field terahertz computed tomography (15 min.) |
The Univ. of Tokushima, Japan1, Osaka Univ., Japan2, Univ. of Bordeaux, France3 ○Mukesh Jewariya1, Yoshiyuki Ohgi2, Emmanuuel Abhram3, Tsutomu Araki2, Takeshi Yasui1 |
|
4 |
THz-TDS of GaAs/AlGaAs/n-GaAs core-shell-skin nanowires on Si (100) and Si (111) (15 min.) |
Univ. of the Philippines, Philippines1, De La Salle Univ. Philippines2, Univ. of Fukui, Japan3 ○Jasher Ibanes1, Elmer Estacio1, Arnel Salvador1, Armando Somintac1, Christopher Que2, Satoshi Tsuzuki3, Kohji Yamamoto3, Masahiko Tani3 |
|
5 |
Carrier lifetimes of GaAs/AlGaAs/n-GaAs core-shell-skin nanowires at 300K (15 min.) |
Univ. of the Philippines Diliman, Philippines1 ○Maria Herminia Balgos1, Rafael Jaculbia1, Sheryl Vizcara1, Elmer Estacio1, Arnel Salvador1, Armando Somintac1 |
|
6 |
Evidence of tunneling in the 300K TRPL spectra of GaAs/AlGaAs coupled quantum wells (15 min.) |
National Inst. of Physics, Philippines1 ○Rafael Jaculbia1, Maria Herminia Balgos1, Michael Defensor1, Kaye Ann delas Alas1, Karim Omambac1, Elmer Estacio1, Arnel Salvador1, Armando Somintac1 |
|
|
Break 15:30~15:45 |
|
|
7 |
Femtosecond laser direct writing of 3D micro- and nanofluidics for bio-applications [Invited](30 min.) |
Chinese Academy of Sciences, China1 ○Cheng Ya1 |
|
8 |
Phase separation in transparent solids due to laser-induced micro-explosions (15 min.) |
Shizuoka Univ., Japan1, Swinburne Univ. of Technology, Australia2, Australian Synchrotron, Australia3, Stanford Univ., USA4, Univ. Claude Bernard Lyon I, France5, Australian National Univ., Australia6 ○Mizeikis Vygantas1, Gervinskas Gediminas2, Tadich Anton3, Vailionis Arturas4, de Ligny Dominique5, Gamaly Eugene6, Rode Andrei6, Juodkazis Saulius2 |
|
9 |
Optical Manipulation of Atomic Arrangement in Multilayer Ge-Sb-Te Phase Change Materials (15 min.) |
Univ. of Tsukuba, Japan1, AIST, Japan2 ○Kotaro Makino1, Junji Tominaga2, Fons Paul2, Kolobov Alexander V.2, Muneaki Hase1 |
|
10 |
H2 Treatment to Improve Photodarkening Resistivity in Highly Ytterbium Doped Fiber (15 min.) |
CSIR-Central Glass & Ceramic Research Inst., India1 ○Atasi Pal1 |
|
11 |
The Stimulated Emission Depletion Property of Insulin-Gold Nanoclusters (15 min.) |
National Taiwan Univ., Taiwan1 ○Po-Fu Chen1, Chien-Liang Liu1, Guan-Jie Chen1, Tung-Yu Su1, Ching-Cheng Cheng1, Pi-Tai Chou1, Shi-Wei Chu1 |
|
12 |
Theoretical Study of Manufacturing Processes for Anisotropic Laser Ceramics (15 min.) |
Inst. Mol. Sci., Japan1 ○Yoichi Sato1, Takunori Taira1 |
|
13 |
Highly-efficient, half-joule output optical-parametric oscillation by using 10-mm-thick periodically poled Mg-doped congruent LiNbO3 (15 min.) |
Inst. Molecular Science, Japan1 ○Hideki Ishizuki1, Takunori Taira1 |
Opto-electronics |
September 13 13:30~18:15 |
13p-G1 - 1~16 |
|
1 |
Chromium-Doped Fiber Amplifier (CDFA) and Its Applications for Next Generation Optical Fiber Network [Invited](30 min.) |
National Sun Yat-Sen Univ., Taiwan1, National Taiwan Univ., Taiwan2 ○Hidenori Taga1, Sheng-Lung Huang2, Yi-Jen Chiu1, Wood-Hi Cheng1 |
|
2 |
Fabrication of Cr-Doped Fibers Using Powder-in-Tube with Redrawing Technique by Drawing Tower (15 min.) |
NSYSU, Taiwan1,NTU, Taiwan2 ○Yi-Chung Huang1, Chun-Nien Liu1, Jau-Sheng Wang1, Fang-Yen Lo1, Sheng-Lung Huang2, Wood-Hi Cheng1 |
|
3 |
Rigorous Characterization of Photonic Crystal Fiber, Device and its Couplings (15 min.) |
City Univ. London, UK1 ○Azizur Rahman1, Muhammad Uthman1, Kenneth Grattan1 |
|
4 |
A Supercontinuum Source for Mid-IR Applications Using Chalcogenide Microstructured Optical Fiber (15 min.) |
Indian Inst. of Technology Delhi, India1 ○Somnath Ghosh1, Naresh Kumar T.1, Ravi K. Varshney1, Bishnu P. Pal1 |
|
5 |
Extremely Large Mode-Area Single-Moded Microstructured Optical Fiber for Mid-IR High Power Delivery (15 min.) |
Indian Inst. of Technology Delhi, India1 ○Ajanta Barh1, Somnath Ghosh1, Ravi K. Varshney1, Bishnu P. Pal1 |
|
|
Break 15:00~15:15 |
|
|
6 |
Wavelength Dependence of Reflection Phase of Cavity-resonator-integrated Guided-mode Resonance Filter (15 min.) |
Kyoto Inst. of Technology, Japan1, National Inst. of Advanced Industrial Science and Technology, Japan2 ○Tomonori Ogura1, Junichi Inoue1, Koji Hatanaka1, Kenji Kintaka2, Kenzo Nishio1, Yasuhiro Awatsuji1, Shogo Ura1 |
|
7 |
Compact Optical Branching Filter with a Si Slit Structure (15 min.) |
Univ. of Fukui, Japan1, Toyo Univ., Japan2 ○Kenta Saiki1, Keita Hiidome1, Takashi Endo1, Tatsuya Yamaguchi1, Yusuke Kitamura1, Toshio Katsuyama1, Hitoshi Takagi2, Masayuki Morita2, Yoshitaka Ito2, Ken Tsutsui2, Yasuo Wada2 |
|
8 |
A Low-Power Consumption Thermo-Optic Effect Based Single Silicon Microring Resonator Mach-Zehnder Modulator (15 min.) |
Yokohama National Univ., Japan1 ○Rajdeep Gautam1, Hiroshi Kaneshige1, Hitoshi Yamada1, Katouf Redouane1, Taro Arakawa1, Yasuo Kokubun1 |
|
9 |
Wireless Microwave-Optical Signal Converters Using Optical Modulation in Gap-Embedded Patch-Antennas on Ferroelectric Optical Crystals (15 min.) |
Osaka Univ., Japan1 ○Yusuf Nur Wijayanto1, Hiroshi Murata1, Yasuyuki Okamura1 |
|
10 |
Negative Feedback Optical Amplification Effect Based on Optical Triode (15 min.) |
Kinki Univ., Japan1 ○Mohamad Syafiq Azmi1, Yuma Fujikawa1, Yoshinobu Maeda1 |
|
|
Break 16:30~16:45 |
|
|
11 |
Simple, low-cost, and high area p-n hetorojunction device based on ZnO nanowires: Combination with TiO2 and its application as a UV photodetector (15 min.) |
NIMS, Japan1 ○Duy Thang DAO1, Chung Vu HOANG1, Thuy Chi DANG1, Nono ARAI1, Gui HAN1, Tadaaki NAGAO1 |
|
12 |
Annealing effect of InAs/Sb:GaAs quantum dots grown on germanium-on-insulator-on-silicon (GeOI) substrate by MOCVD (15 min.) |
The Univ. of Tokyo, Japan1 ○Rajesh Mohan1, Jun Tatebayashi1, Masao Nishioka1, Yasuhiko Arakawa1 |
|
13 |
Signature of reduced inter-dot coupling in telecommunication band lower density InAs quantum dots grown on InP(311)B (15 min.) |
Hokkaido Univ., Japan1, National Inst. of Information and Communications Technology, Japan2 ○Nahid Jahan1, Xiangming Liu1, Kouichi Akahane2, Masahide Sasaki2, Hidekazu Kumano1, Ikuo Suemune1 |
|
14 |
Picosecond Carrier Lifetime of GaAs/AlGaAs Single Quantum Wells at 77K (15 min.) |
Univ. of the Philippines Diliman, Philippines1 ○Jessica Pauline Afalla1, Jasher Ibanez1, Maria Herminia Balgos1, Arnel Salvador1, Armando Somintac1 |
|
15 |
Magnetotransport Properties of InSb Two-Dimensional Electron Gas with Gate Dielectric Al2O3 (15 min.) |
Tohoku Univ., Japan1, ERATO Nuclear Spin Electronics Project, Japan2, Univ. of Oklahoma, USA3 ○M.M. Uddin1, H.W. Liu2, K.F. Yang2, T.D. Mishima3, M.B. Santos3, K. Nagase2, Y. Hirayama1 |
|
16 |
Determination of Penetration Depth of Transverse Spin Current in (100) oriented Heusler alloy films by Spin Pumping. (15 min.) |
Tohoku Univ., Japan1 ○Lutondo Kwilu1, Hiroshi Naganuma1, Mikiko Oogane1, Yasuo Ando1 |
Opto-electronics |
September 14 9:00~12:00 |
14a-G1 - 1~10 |
|
1 |
Simulation of Gold Nanoparticles Enhanced HIT Solar Cell (15 min.) |
National Taiwan Univ., Taiwan1, Academia Sinica, Taiwan2 ○Kuang Sheng Chung1, Pin Chieh Wu1, Wei Ting Chen1, Din Ping Tsai2 |
|
2 |
Influence of incident light losses on transparency of ITO electrodes (15 min.) |
Korean Inst. of Materials Science, Korea1 Yeon Hyun Park1, Jungheum Yun1, Sunghun Lee1, ○Gun-Hwan Lee1 |
|
3 |
Polarimetric observation of molecular reorientation in dye-doped liquid crystal thin film toward sub-micrometer scale (15 min.) |
National Taiwan Univ., Taiwan1 ○Guan-Yu Zhuo1, Kuan-Chieh Chen1, Shi-Wei Chu1 |
|
4 |
Flexible high efficiency fluorescent white organic light emitting device (15 min.) |
National Formosa Univ., Taiwan1 Pen-Chu Lin1, ○Fuh-Shyang Juang2, Yu-Sheng Tsai3, Lin-Ann Hong4 |
|
5 |
Direct energy transfer from triplet to singlet between two fluorescent dyes induced by exterior heavy atom (15 min.) |
Peking Univ., China1, Kyoto Sangyo Univ., Japan2 Lixin Xiao1, ○Xing Xing1, Taiju Tsuboi2, Yosuke Nakai2, Fei Wang1, Boyuan Qi1, Zhijian Chen1, Bo Qu1, Qihuan Gonga1 |
|
|
Break 10:15~10:30 |
|
|
6 |
Ceramic and glass ceramic phosphors for white LEDs [Invited](30 min.) |
Kyoto Univ., Japan1, JST PRESTO, Japan2 ○Setsuhisa Tanabe1,2 |
|
7 |
Resolution of Imaging System with Electrical Focusing Using a Liquid Crystal lens (15 min.) |
Akita Industrial Technology Center, Japan1 ○Mao Ye1, B. Wang1, M. Uchida1, S. Yanase1, S. Takahashi1, S. Sato1 |
|
8 |
High-speed Triphenylamine-based Photorefractive Polymeric Composites (15 min.) |
Kyoto Inst. of Technology, Japan1 ○Sho Tsujimura1, Kenji Kinashi1, Wataru Sakai1, Naoto Tsutsumi1 |
|
9 |
Photorefractive Composite Based on Poly(4-(diphenylamino)benzyl-acrylate) (15 min.) |
Kyoto Inst. of Technology, Japan1 ○Ha Giang Ngoc1, Kenji Kinashi1, Wataru Sakai1, Naoto Tsutsumi1 |
|
10 |
Optimization of poly(N-vinylcarbazole)-based photorefractive composite (15 min.) |
Kyoto Inst. of Technology, Japan1 ○Kenji Kinashi1, Yu Wang1, Wataru Sakai1, Naoto Tsutsumi1 |
Optical Micro-sensing,Manipulation, and Fabrications |
September 14 9:00~15:00 |
14a-G2 - 1~9 |
|
1 |
Rapid Maskless Production of Antireflective Biomimetic Surfaces by Multi-Exposure Two-Beam-Interference Ablation (15 min.) |
Jilin Univ., China1 ○Lei Wang1, Zhen-Hua Lv1, Qi-Dai Chen1, Hong-Bo Sun1 |
|
2 |
Single-pulse femtosecond laser fabrication of high-aspect sub-micron structures in transparent substrates (15 min.) |
Univ. of Tennessee Space Inst., USA1 ○L.M. Davis1, B.K. Canfield1, L. Costa1, D. Rajput1, W. Hofmeister1, A. Terekhov1 |
|
3 |
Holographic femtosecond laser processing [Invited](30 min.) |
Utsunomiya Univ., Japan1 ○Yoshio Hayasaki1 |
|
|
Break 10:00~10:15 |
|
|
4 |
A metalized microturbine driven by a scanning ultra-low power laser beam (15 min.) |
Yokohama National Univ., Japan1, Univ. of Maryland, USA2 ○Ikegami Takashi1, Ozawa Ryota1, Michael P. Stoker2, John T.Fourkas2, Maruo Shoji1 |
|
5 |
Axial particle displacement using optical tweezers (15 min.) |
Nara Inst. of Science and Technology, Japan1 ○Mary-Clare Dy1, Tadao Sugiura1, Kotaro Minato1 |
|
6 |
Rotation and translation of a silver nanowire using an optical vortex (15 min.) |
Yokohama National Univ., Japan1, Univ. of Maryland, USA2 ○Ryota Ozawa1, Sanghee Nah2, John Fourkas2, Shoji Maruo1 |
|
7 |
Measurement of orbital angular momentum spectrum from fork-like interferogram (15 min.) |
Hokkaido Univ., Japan1, JST-CREST, Japan2 ○Zhili Yang1, Keisaku Yamane1,2, Yasunori Toda1,2, Ryuji Morita1,2 |
|
8 |
Spectral-Domain Low-Coherence Dynamic Light Scattering Technique for One-Shot Detection of the Solid-Liquid Interface Effect in Brownian Particles (15 min.) |
Tokyo Univ. of Agri. & Tech., Japan1 ○Toshiharu Watarai1, Toshiaki Iwai1 |
|
9 |
Improving surface plasmon detection in gold nanostructures using a multi-polarization spectral integration method (15 min.) |
Academia Sinica, Taiwan1, National Taiwan Ocean Univ., Taiwan2 ○Kuang-Li Lee1, Min-Jian Chih2, Pei-Kuen Wei1 |
|
|
Lunch 11:45~13:15 |
|
14p-G2 - 1~6 |
|
1 |
Silicon photonic biosensor concept with on-chip wavelength multiplexing [Invited](30 min.) |
AIT Austrian Inst. of Technology GmbH, Austria1, AMO GmbH,Germany2 ○Rainer Hainberger1, Paul Muellner1, Roman Bruck1, Thorsten Wahlbrink2, Michael Waldow2 |
|
2 |
Single-shot interferometry with free sample set-position by mean of optical frequency comb (15 min.) |
Nagaoka Univ. of Technology, Japan1 ○Quoc Tuan Banh1, Kohei Suzuki1, Masaya Sakatsume1, Tatsutoshi Shioda1 |
|
3 |
Evaluation of optical vortex displacement in loaded sample using a
statistical algorithm (15 min.) |
Univ. of the Philippines, Philippines1 ○Charmaine Rose delos Reyes1, Percival Almoro1 |
|
4 |
Broadband digital holography with chromatic-phase shifter (15 min.) |
Utsunomiya Univ., Japan1 ○Duc Quang Pham1, Satoshi Hasegawa1, Akihiro Kiire1, Daisuke Barada1, Toyohiko Yatagai1, Yoshio Hayasaki1 |
|
5 |
Optical Heterodyne Angular Displacement Measurement System (15 min.) |
Southern Taiwan Univ., Taiwan1 ○Ruey-Ching Twu1 |
|
6 |
Beam Estimation by the Inverse Diffraction (15 min.) |
Ibaraki Univ., Japan1, AGT Corporation, Japan2 ○Ryo Nishikawa1, Katsuhiro Uno1, Shigeru Tachikawa2 |