| 3 Optics |
| “ú–{ŒõŠw‰ï‘‰ïCŒõŠw˜_•¶ÜŽöÜŽ®E‹L”Ou‰‰ |
| March 18 13:45`15:05 |
| 18p-ZK - 1`2 |
| 1 | Fast physical random number generation with chaotic lasers | Saitama Univ.@*Atsushi Uchida |
| 2 | Optical microscopy beyond the limit : label-free molecular imaging and super resolution | Osaka Univ.@Katsumasa Fujita |
| 3.1 Fundamental Optics |
| March 18 9:30`11:30 |
| 18a-K - 1`8 |
| 1 | Mysterious Closed Optical Boxes | Osaka Univ. CASI 1 @*Kobayashi Tetsuro |
| 2 | The role of randomness in Morpho-butterfly's color `analyses by the FDTD method` | Osaka Univ. 1,RIKEN/SPring-8 2,JST PRESTO 3@›Yonezawa Masaru 1,Murase Junichi 1,Akai-Kasaya Megumi 1,Kuwahara Yuji 1,2,Saito Akira 1,2,3
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| 3 | Generation of Ultra-small Optical Spot by Using a Quasi-Crystal and Apodization | Inst. Appl. Phys. Univ. of Tsukuba 1@Jun-ichiro Sugisaka 1, Hiroki Shirakata 1, Masahide Itoh 1 |
| £ | 4 | Double grating shearing interferometric profilometer using sinusoidal phase modulation technique for estimating defocusing errors | Inst. of Eng. & Tech, Devi Ahilya Univ., Indore, India 1 Niigata Univ. 2@Shashi Prakash1, Osami sasaki2, Samuel Choi2, Takamasa Suzuki2 |
| 5 | FDTD analysis on focusing properties of radially polarized beam | Kyoto Univ. 1,KUPRU 2@*Kitamura Kyoko 1,Sakai Kyosuke 1,2,Takayama Naoki 1,Noda Susumu 1 |
| 6 | Generation and Control of Composed Coherent Optical Vortex Pulses | Hokkaido Univ. 1@*Honda Shouichi 1,Toda Yasunori 1,Morita Ryuji 1 |
| 7 | Focusing Properties of Radially Polarized Beam with a Six-fold Symmetry | IMRAM., Tohoku Univ. 1@*Niwa Masato 1, Kozawa Yuichi 1, Sato Shunichi 1 |
| 8 | Rod-mode Plasmons: Its Feature and Applications | Satoshi Kawata@Satoshi Kawata |
| 3.2 Material Optics |
| March 17 13:30`17:45 |
| 17p-K - 1`16 |
| ¢ | 1 | Control of Frontal Polymerization by Ultraviolet Rays | Dept. of Applied Physics & Physico-Informatics Fac. of Sci. & Tech. Keio Univ. 1, Integrated Design Engineering Keio Univ. 2@*Ikeda Kazuki 1, Asakura Kouichi 2, Nihei Eisuke 1,2 |
| 2 | Nanoparticle-polymer composites capable of low polymerization shrinkage and high refractive index modulation II | Dentsu Univ. 1,Dentsu Univ. 1@*Eiji Hata 1,Yasuo Tomita 1, |
| 3 | Holographic recording of volume holograms recorded in nanoparticle-polymer composites using thiol-ene monomers at violet-blue wavelengths | Dentsu Univ. 1@*Omura Koji 1,Yasui Satoru 1,Tomita Yasuo 1 |
| £ | 4 | High contrast Bragg grating structures fabricated by holographic assembly of semiconductor CdSe quantum dots in polymer | Univ. of Electro-Commun. 1, Nissan Chem. Indus., Ltd. 2, Nara Inst. of Sci. and Tech. 3@*Xiangming Liu 1, Yasuo Tomita 1, Juro Oshima 2, Katsumi Chikama 2, Takuya Nakashima 3, Tsuyoshi Kawai 3 |
| 5 | Study for Erasing the Hologram on/in Glass Substrate Transferred Using Corona Charging | AIST 1, Kitami Inst. of Tech. 2, Utsunomiya Univ. 3@*Sakai Daisuke 1, Harada Kenji 2, Barada Daisuke 1,3, Fukuda Takashi 1 |
| 6 | Polarization state control of diffraction light by three-dimensional vector holograms in twisted nematic azo-dye-doped liquid crystal composites | Nagaoka Univ. of Tech. 1, Gunma Univ. 2, Univ. of Hyogo 3@*Takanori Iwato 1, Akira Emoto 1, Tatsutoshi Shioda 1, Tomoyuki Sasaki 2, Nobuhiro Kawatsuki 3, Hiroshi Ono 1
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| ¢ | 7 | Polarization-independent refractive index modulation using azo-dye doped liquid crystal | Osaka Univ. 1@*Tagashira Kenji 1, Yoshida Hiroyuki 1, Fujii Akihiko 1, Ozaki Masanori 1 |
| ¢ | 8 | Photorefractive effect in AlN bulk crystal | IIS, The Univ. of Tokyo 1@*Nagai Toru 1, Fujimura Ryushi 1, Shimura Tsutomu 1, Kuroda Kazuo 1 |
| | | Break 15:30`15:45 | |
| 9 | Theoretical investigations for optical anisotropy in subwavelength structures composed of photo-alignment mesogenic molecules | Nagaoka Univ. of Tech. 1, Univ. of Hyogo 2@*Emoto Akira 1, Okada Makoto 2, Manabe Sayaka 2, Kawatsuki Nobuhiro 2, Matsui Shinji 2, Ono Hiroshi 1, |
| 10 | Design of Retardation Films for VA-mode LCDs with a High Contrast Ratio at Normal Incidence | Fujifilm Corporation 1@Makoto Ishiguro 1, Megumi Sekiguchi 1, Yukito Saitoh 1, Makoto Ishihara 1, Keiichi Miyazaki 1, Keiji Mihayashi 1 |
| 11 | Large area fabrication and Mass-Production of Morpho-type color materials | Osaka Univ.1,NIKKISO CO.,LTD.2,Canon Machinery Inc.3,RIKEN/SPring-8 4@*Murase Junichi 1,Watanabe Hiroyuki 2,Yonezawa Masaru 1,Noguchi Shunji 3, Ninomiya Takafumi 3,Akai-Kasaya Megumi 1,Kuwahara Yuji 1,4,Saito Akira 1,4 |
| 12 | Diffraction properties of the volume polarization grating | CORE, Utsunomiya Univ. 1, Photon. Res. Inst., AIST 2, Grad. Sch. Eng.,Utsunomiya Univ. 3@*Kawagoe Yohsuke 1,3, Kurosawa Hiroyuki 1,3, Barada Daisuke 1,2,3, Fukuda Takashi 2, Yatagai Toyohiko 1,3, |
| 13 | Properties of polarization separation from fiber/polymer composites without light absorption | Tokyo Univ. Agri. & Tech.@*Kenro Totani 1, Hideki Hayashi 1,Toshiyuki 1 Watanabe |
| 14 | BaAlF5:Eu Electroluminescent Devices prepared by two-target pulsed-electron-beam evaporation | Meiji Univ.@›Haruhoisa Suzuki, Noboru Miura, Hironaga Matsumoto, Ryotaro Nakano |
| 15 | Synthesis of very high efficiency long lasting phosphor Sr1+xAl2O4:Eu2+, Dy3+ (x=0.3, 0.5, 0.6, 0.7) | SUNGKYUNKWAN UNIVERSITY Dept.of Advanced Materails Engineering@Takaki Masaki,D.S.Jo,and D.H.Yoon |
| 16 | Luminescence property of ITO crystal doped with rare earthes element | TOKAI Univ@*Kawai Hiroto 1, Wakaki Moriaki 1 |
| 3.3 Optics for systems and Devices |
| March 20 9:00`14:30 |
| 20a-L - 1`11 |
| 1 | Simulation of Low-Driving-Voltage and Thin Liquid-Crystal Lens | Akita Research and Development Center@*Susumu Sato 1, Mao Ye 1 |
| 2 | Development of Ultra-thin Liquid Crystal Lens for Mobile Devices | Akita R&D Center 1, Mitsubishi Materials Electronic Chemicals 2@Mao Ye 1, Bin Wang 1, Masaru Uchida 1, Maki Yamaguchi 2, Susumu Sato 1 |
| 3 | Transient Properties of a Liquid Crystal Lens by Fast Switching Method | Akita R & D Center@*Yanase Satoshi 1, Ye Mao 1, Sato Susumu 1 |
| 4 | Electro-optical properties of a liquid crystal lens by using double circularly hole-patterned electrodes | Akita Univ. 1@*Kawamura Marenori 1, Ito Yuhei 1 |
| 5 | Microscope system by using a liquid crystal lens | Akita Univ. 1@Kawamura Marenori Kawamura 1, Toshima Kuniki Toshima 1 |
| 6 | Scatterometer for optical property measurements of lenses using a STAR GEM optical accessory II
| AIST 1,Systems Engineering Inc 1,2@*Kawate Etsuo1,Yamada Hisashi1,2 |
| | | Break 10:30`10:45 | |
| 7 | New Solid-State Laser Crystals Fabricated from Water Solution Including Host and Guest Species | Iwate Univ. Eng. 1, Iwate Univ. Grad. Sch. 2@*Hiroshi Taniguchi 1, 2 |
| 8 | A study on the core structure change in the spliced fiber by the SPring-8 micro-Computed Tomography observation with Ge K-absorption edge | Photonics Labs., NTT Corporation 1, Japan Synchrotron Radiation Research Inst. 2@*Shinji Koike 1,Junya Kobayashi 1,Kentaro Uesugi 2,Masato Hoshino 2, Akihisa Takeuchi 2,Yoshio Suzuki 2,Yoshio Watanabe 2
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| 9 | Enhancement of Tensile Stress in Thin Film Through Metal-Induced Lateral Crystallization Using Ni Ferritin Supramolecules | Toyota Technol. Inst. 1, NAIST 2, CREST 3@*Shusuke Miyachi 1, Shinya Kumagai 1,3, Ichiro Yamashita 2,3, Yukiharu Uraoka 2,3, Minoru Sasaki 1,3 |
| £ | 10 | High-precise spherical micro-mirror by bending Si thin plate | Tohoku Univ. 1@* Tong Wu 1,Kazuhiro Hane 1 |
| £ | 11 | Development of two-axis MEMS scanner for optimally driven operation | Tohoku Univ.1@*Hoang Chu 1,Kazuhiro Hane 1 |
| | | Lunch 12:00`13:00 | |
| 20p-L - 1`6 |
| 1 | Attempt to improve the efficiency of 4H-SiC photodiode using antireflective SWS | Kanagawa Indus. Tech. Center@*Hirabayashi Yasuo 1, Akiyama Kensuke 1, Kaneko Satoru 1, Yasui Manabu 1, Sakarazawa Keitaro 1 |
| 2 | Analysis of Optical Properties of GMRG by Using FMM-BEM ` Influence of Production Error Distribution `
| Shimadzu Corp.@*Akira Sato |
| 3 | Development of Low-reflective Wire-grid Polarizers | Kyoto Univ. 1, Sony Chemical & Information Device Corp. 2@—é–Ø ŠîŽj 1, ‚“c º•v 2, ŽR“c —²r 2, ‘â F 2, ²X–Ø _Ži 2, ‚‹´ ‰pŽi 2, ŒF’J ÃŽ— 2 |
| 4 | Study on the subwavelength structures in binary diffractive lens with short focal length | Mie Univ. 1, MIE-CUTE 2@*Atsushi Motogaito 1, 2, Yuuji Nakayama 1, Hideto Miyake 1, 2, Kazumasa Hiramatsu 1, 2 |
| 5 | Multiplexed diffractive spatiotemporal lenses | CORE, Utsunomiya Univ. 1@*Kimura Kouhei 1, Hasegawa Satoshi 1, Hayasaki Yoshio 1 |
| 6 | Optical interconnection for multi-wavelength signal with random phase filter | Univ of Ymanashi 1@Sheng baoluo 1,Satosi Honma 2 |
| 3.4 Optical Instrumentation and Measurement |
| March 18 13:00`18:00 |
| 18p-K - 1`19 |
| 1 | Simultaneous measurement of absorption and scattering coefficients@of diluted standard suspension | Seikei Univ. 1, Sigma Koki Co.Ltd. 2@*Kuniharu Takizawa1, Tomohito Hasegawa1, Takao Iijima1 and Koshi Haraguchi2 |
| 2 | Polarimetric Analysis of Scattered Light by Macrorough Surfaces | Univ. of Yamanashi1, Tokyo Univ. of Agri. & Tech. 2, Seikei Univ. 3@Lianhua Jin1, Ryoma Yagi1, Masataka Kasahara1, Bernard Gelloz2, Kuniharu Takizawa3 |
| 3 | Development of high-sensitive low-coherence dynamic light scattering system | Analysis Technology Center, Reserch & Development Management Headquarters, FUJIFILM 1, The Graduate School for the Creation of New Photonics Industries 2 @Soichiro Nakamura 1, Yuki Sato 1, and *Katsuhiro Ishii 2 |
| 4 | Novel optical sampling method based on nonadiabatic near field optical excitation process | Hamamatsu Photonics KK 1,Univ. of Tokyo 2@*Fujiwara Hiroyasu 1,Kawazoe Tadashi 2,Ohtsu Motoichi 2 |
| 5 | Theory of the nonlinear dynamics control of microcavity by light-induced force | N2RC Osaka Pref. Univ. 1, PRESTO-JST 2@*Takuya. Iida 1,2, Ryu Ooka 1 |
| 6 | Characteristic analysis of surface plasmon resonance sensor in metal-grating loaded waveguide | Waseda Univ. 1@*Kouichi Takasaki 1,Hirohumi Simazu 1,Katuyuki Utaka 1 |
| 7 | Polarization detection of gold nanoparticle for nanometer scale distance measurement | Keio Univ.@*Oyabu Eiji 1, Yamaoka Akihiro 1, Saiki Toshiharu 1 |
| 8 | Scattering Characteristic of Liquid-Crystal Optical Deflector by Using Different Constituents | Tokushima Univ. 1@*Yamamoto Takuya 1,Wakita Syota 1,Suyama Shiro 1,Yamamoto Hirotsugu 1 |
| 9 | Three-dimensional orientation measurement of liquid crystal by polarization distribution controlled CARS microscopy
| Osaka Univ. 1, Univ. of Hyogo 2, Citizen Holdings Co., Ltd. 3@*Takagi Tatsuro 1, Minamikawa Takeo 1, Yoshiki Keisuke 2, Araki Tsutomu 1, Kurihara Makoto 3, Hashimoto Nobuyuki 3, Hashimoto Mamoru 1 |
| 10 | Development of the spectroscopic four detector polarimeter of transmission type | IMRAM, Tohoku Univ. 1, Techno-Synergy, Inc. 2, Tokyo Polytechnic Univ. 3@Yoshihito Kubota 1, *Toshihide Tsuru 1, Toshiyasu Tadokoro 2, Shuichi Kawabata 3 |
| | | Break 15:30`15:45 | |
| 11 | Measurement of Light Polarization State Using Six Photodetectors | Tokyo Polytechnic Univ. 1@*Tei Ou 1,Toshihiro Shintaku 1,Shuichi Kawabata 1 |
| 12 | Theoretical Analysis for High-speed Birefringence Measurement System | Yamanashi Univ. 1,Uniopt Co.,Ltd. 2,Seikei Univ. 3@Lianhua Jin 1,*Takeshi Saitou 1,Yukinori Masamura 1,Eichi Kondo 1,Hiroyuki Kowa 2,Kuniharu Takizawa 3 |
| 13 | Mirror vibration monitoring in polarization interferometer | Systems Eng., Wakayama Univ. 1,@*Yamamoto Ryota 1,Numata Takuhisa 1,Nitanai Eiji 1,Nomura Takanori 1 |
| 14 | In-Situ Measurement of the Solid?Liquid Interface on Internal Reflection Ellipsometry | Natl. Inst. Adv. Ind. Sci. Technol. (AIST), Shikoku Ctr. 1@*Soichi Otsuki 1, Mitsuru Ishikawa 1 |
| 15 | Calibration of optical windows of a high-pressure vessel in in-situ spectroscopic ellipsometry and its application to adsorption analysis | Univ.Yamanashi@*Kazuya Kotaka, Yukihiro Tamegai, Lianhua Jin, Eiichi Kondoh |
| 16 | Accuracy Estimation on Shack Hartmann sensors considered with distribution of phase | Mitsubishi Electric corporation 1@Suzuki Jiro 1, |
| 17 | Phase contrast wave-front sensor for adaptive optics
| Subaru Telescope, National astronomical Observatory of Japan@Masayuki Hattori |
| ¢ | 18 | Rapid measurements of O2 absorption spectra with a current modulated laser diode 2 | Kyoto Univ. 1@*Katayama Koichi 1, Morita Daisuke 1, Shikama Taiichi 1, Hasuo Masahiro 1
|
| 19 | Highly Sensitive Range Finder by Using Optical Preamplifier | Toyota Central R&D labs. Inc.@Daisuke Inoue, Hiroyuki Matsubara, Tadashi Ichikawa, Tie Nagashima, Manabu Kagami |
| 3.4 Optical Instrumentation and Measurement |
| March 19 9:00`12:00 |
| 19a-J - 1`12 |
| ¢ | 1 | Measurement of electro-optic coefficients of LiTaO3 using heterodyne interference method | Seikei Univ.1,Siguma Koki Co.Ltd.2@Watanabe Yuki 1,Takizawa Kuniharu 1,Haraguchi Koshi 2 |
| ¢ | 2 | Measurement of apparent index of refraction of as-cut LiTaO3 crystal surface | Seikei Univ. 1,Siguma Koki Co.Ltd. 2@*Kei Mochizuki 1,Kuniharu Takizawa 1,Koshi Haraguchi 2 |
| ¢ | 3 | Analysis of Biological Cells using Phase Measurement System Based on Closed Loop Feed-back Control | Japan Womenfs Univ.1, JST-PRESTO 2, NIMS 3, Tokai Univ.4@*Toshima Miki 1, Watanabe Eriko 123, Mizuno Jun 1, Fujikawa Chiemi 4, Kodate Kashiko 1 |
| 4 | Digital Holography Using Quadrature Phase-shifting Interferometer With Polarization Imaging Camera
| Utsunomiya Univ. CORE 1, Tokyo Polytechnic Univ. 2@*Tomohiro Kiire 1, Suezou Nakadate 2, Masato Shibuya 2, Toyohiko Yatagai 1 |
| ¢ | 5 | Measurement of inner surface shape of pipe by two wavelength phase-shifting digital holography | Shimane Univ. 1@*Toru Adachi 1, Masayuki Yokota 1 |
| 6 | Measurement of paint drying process by using phase-shifting digital holography | Shimane Univ. 1, Toyo Seiki 2@*Masayuki Yokota 1, Yoshiki Kimoto 1, Ichirou Yamaguchi 2 |
| 7 | Precise phase shift error compensation method in Phase Shifting Digital Holography | Saitama Univ. 1,Center for Environmental Science in Saitama. 2@*Motofumi Kataoka 1, Hirofumi Kadono 1,2 |
| £¢ | 8 | Two-dimensional Phase Unwrapping Using Virtual Residues | Hokkaido Univ. 1@*Heshmat Samia 1, Nishiyama Shusuke 1, Tomioka Satoshi 1 |
| 9 | Spacing tunable supercontinuum generation for interferometric measurement | Tokyo Univ. of Agri. and Tech. 1@*Kasuya Yosuke 1, Tamura Naoyuki 1, Kashiwagi Ken 1, Kurokawa Takashi 1 |
| ¢ | 10 | Development of Spectroscopic Three-dimensional Measurement System Using Supercontinuum Source | Osaka Univ. 1, Miyagi Natl. College of Technology 2@*Takefumi Ohta 1, Norihiko Nishizawa 1, Tetsuya Ozawa 2, Kazuyoshi Itoh 1 |
| 11 | Evaluation of Optical Frequency Comb by Interferometric Length Metrology | The Univ. of Tokyo@*Matsumoto Hirokazu 1, Wei Dong 1, Takahashi Satoshi 1, Takamasu Kiyoshi 1 |
| 12 | Fizeau-interferometer using optical comb and sinusoidal phase modulation techniques | Niigata Univ.@*Hidetaka Miyatsuka 1,Samuel Choi 1,Osami Sasaki 1,Takamasa Suzuki 1 |
| 3.4 Optical Instrumentation and Measurement |
| March 20 9:00`12:15 |
| 20a-J - 1`12 |
| 1 | Depth velocity imaging based on moire Doppler effect and frequency estimation II | The Univ. of Tokyo 1@*Mochida Yasuhiro 1, Kurihara Toru 1, Ando Shigeru 1 |
| 2 | A study of coaxial 3D measurement using defocused temporal-spatio stripe pattern | Univ. Tokyo@*Kurihara Toru 1, Ochiai Kazuki 1, Ando Shigeru 1 |
| 3 | Asynchronous heterodyne interferometry based on short-time exact frequency estimation | Univ. Tokyo 1@Shigeru Ando 1, Seichi Sato 1, Toru Kurihara 1 |
| 4 | Birefringence distribution measurement with optical heterodyne interferometry and Time-domain correlation image sensor I
| Uniopt Co., Ltd. 1, Univ. Tokyo. 2 @*Morimoto Yu 1,Kowa Hiroyuki 1,Tsukiji Mitsuo 1,Kurihara Toru 2,Ando Shigeru 2 |
| 5 | Single-shot tomography and spatially-resoled spectrum measurement system | Nagaoka Univ. of Tech. 1@*Morisaki Takashi 1,Ono Hiroshi 1,Shioda Tatsutoshi 1 |
| 6 | Single-shot 2D tomography with VIPA installed optical interferometer | Nagaoka Univ. of Tech. 1@*Morisaki Takashi 1,Hiroshi Ono 1,Tatsutoshi Shioda 1 |
| | | Break 10:30`10:45 | |
| 7 | Dispersion Measurement by means of Dual Heterodyne Mixing Method with Dispersion Compensator | Nagaoka Univ of Tech 1@*Hitoshi Ishimaru@1,Toshiaki Yamazaki@1,Hiroshi Ono@1,Tatsutoshi Shioda 1 |
| 8 | Application of Dual Heterodyne Mixing Method to Optical BPSK Signal Detection | Nagaoka Univ. of Tech. 1@*Yamazaki Toshiaki 1, Ono Hiroshi 1, Shioda Tatsutoshi 1, Kuzuwata Mitsuru 1 |
| 9 | Basic Experiments on Measurement of Salinity with a Heterodyne Michelson Interferometer | JAMSTEC 1, Marine Works Japan 2,ERI, the Univ. of Tokyo 3@Kenichi Asakawa 1, Hisayasu Ishihara 1, Yukio Takahashi 1, Tomohiko Sugiyama 2, Masato Araya 3 |
| 10 | Precise Phase Shift Measurement Using Gires-Tournois Interferometer | NTT Photonics Labs. 1@*Watanabe Toshio 1, Ishii Motohaya 1, Seno Kazunori 1, Ooba Naoki 1 |
| 11 | Profile measurement by multi wavelength back-propagation method and spectral interferometer | Niigata Univ. 1@*Otsuki Kouhei 1,Choi Samuel 1,Sasaki Osami 1,Suzuki Takamasa 1 |
| 12 | Measurement Accuracy of the Surface Figure of Aspherical Mirror - Aspherical Concave Mirror Measurement - | Gred. School of Eng., Osaka Univ. 1@Toshiaki Matsuura 1, Kazuaki Udaka 1, Yasushi Oshikane 1, Haruyuki Inoue 1, Motohiro Nakano 1, Kazuto Yamauchi 1, Toshihiko kataoka 1 |
| 3.5 Information Optics |
| March 17 10:00`16:45 |
| 17a-J - 1`8 |
| 1 | Optical configuration experiment using an anisotropic hologram memory | Shizuoka University 1, Kobe-C.C.T. 2, Kyushu Institute Tech. 3@Takayuki Mabuchi 1, Yukari Ochi 2, Minoru Watanabe 1, Akifumi Ogiwara 2, Fuminori Kobayashi 3 |
| ¢ | 2 | Characterization of micro-tag formed by doped-glass arrangement technology | Tokyo Denki Univ. 1,NICT 2@*Araki Ayaka 1,Maeda Makoto 1,Fujioka Hiroki 1,Yamamoto Naokatsu 2,Takai Hiroshi 1 |
| ¢ | 3 | Reconstruction of Absorbers in Scattering Medium by Projection Method | Kobe Univ. 1,2@*Moriguchi Shota 1,Nitta Koichi 1,2,Matoba Osamu 1,2 |
| ¢ | 4 | Vivid image projection system using electronic paper screen | Department of Optical and Imaging Science & Technology, School of Engineering, Tokai University 1@›(BC)Tsukasa Kinjo 1, Makoto Omodani 1, Tadao Yoshida |
| 5 | A Simulator for an Imaging Device Based on Dihedral Corner Reflectors Array | Kobe Univ. 1, NICT 2@*Yokoyama Shotaro 1, Matsukura Yoshinori 1,Nitta Koichi 1, Matoba Osamu 1, Maekawa Satoshi 2 |
| 6 | A Study on Model of Gloss Perception using 3D Display | Chiba Univ. 1,Tokyo Metropolitan College of Industrial Techinology 2@*Sawabe Masashi 1,Hirai Keita 1,Tsumura Norimichi 1,Nakaguchi Toshiya 1,Yamamoto Shoji 2 |
| 7 | Measurement of Half-Cube Projective Texturing and its Application to the Mixed Reality | Chiba Univ. 1, Chiba Univ. 2@*Hashimoto Kensuke 1, Izumi Fujiwara 2, Norimichi Tsumura 1, Toshiya Nakaguchi 1
|
| 8 | Light Transport Acquisition with Pre-Computed Compressive Sensing | Chiba Univ, Graduate School of Advanced Integration Science 1@*Yasumasa Itakura 1, Norimichi Tsumura 1, Toshiya Nakaguchi 1 |
| | | Lunch 12:00`13:00 | |
| 17p-J - 1`14 |
| |
1 |
Characteristic optical responses on Nanophotonic Code in Hierarchical Hologram depends on environmental structures |
Univ. Tokyo 1, NICT 2, Dai Nippon Printing Co., Ltd. 3@*Naoya Tate 1, Wataru Nomura 1, Makoto Naruse 1,2, Takashi Yatsui 1, Tadashi Kawazoe 1, Morihisa Hoga 3, Yasuyuki Ohyagi 3, Tokuhiro Fukuyama 3, Mitsuru Kitamura 3, Motoichi Ohtsu 1 |
| 2 | Periodic Pattern Visual Cryptography Composed of Rectangular Sub-pixels | Shizuoka Univ. 1@Shogenji Rui 1, Ohtsubo Junji 1 |
| 3 | Visual cryptography by use of multiple-layered retarders | Univ. of Tokushima 1@*Yamamoto Hirotsugu 1, Imagawa Takanori 1, Suyama Shiro 1 |
| 4 | Key-space analysis of phase-only double random phase encoding | Imaging Sci.& Eng. Lab 1, Interdisciplinary Graduate School of Sci. and Eng. 2, Tokyo Inst. of Tech.@*Nakano Kazuya 1,Suzuki Hiroyuki 1,Yamaguchi Masahiro 1,Obi Takashi 2,Ohyama Nagaaki 1 |
| 5 | Threshold decision in image matching of 2D fingerprint data encrypted by fractional Fourier transform on the basis of FAR and FRR | Chiba Univ. 1@*Reiko Iwai 1,Hiroyuki Yoshimura 2 |
| 6 | Improvement of the Appearance Reproduction System of Face with Area Segmentation According to BRDF | Chiba Univ. 1@*Fujiwara Izumi 1,Gogami Akihito 1,Nakaguchi Toshiya 1,Tsumura Norimichi 1 |
| 7 | Evaluation of Error in Doppler Phase-Shifting Digital Holography | Grad. Sch. Eng., Utsunomiya Univ. 1, CORE, Utsunomiya Univ. 2@*Barada Daisuke 1,2, Kikuchi Yuuichi 1,2, Kiire Tomohiro 2, Kawata Shigeo 1,2, Yatagai Toyohiko 1,2 |
| | | Break 14:45`15:00 | |
| 8 | A handheld gonio-imaging system for OVD using compound-eye optics | NRIPS 1, FUNAI Electric Co., Ltd. 2, Osaka Univ. 3@Yoshinori Akao 1, Yoshizumi Nakao 2, Takashi Toyoda 2, Yoshiyasu Higashikawa 1, Jun Tanida 3 |
| 9 | TOMBO for multispectral imaging with depth estimation | Faculty of Engineering, Osaka Univ. 1, Graduate School of Information Science and Technology, Osaka Univ. 2@Naoki Fukata 1, Keiichiro Kagawa 2, Jun Tanida 2 |
| ¢ | 10 | Multi-dimensional data acquisition using a compound-eye camera | Osaka Univ. 1, Duke Univ. 2@*Horisaki Ryoichi 1, Choi Kerkil 2, Hahn Joonku 2, Tanida Jun 1, Brady David 2 |
| 11 | Retrieval of Spectra and Three-Dimensional Images of Polychromatic Source Distribution by a Fully Interferometric Measurement | Graduate School of Eng., Iwate Univ.@*Masumi Sasamoto 1, Kyu Yoshimori 1 |
| 12 | Non Rigid 3D Measurement for Endoscopy | Chiba Univ. 1@*Sasaki Mai 1, Nakaguchi Toshiya 1, Tsumura Norimichi 1 |
| 13 | High resolution real-time 3D measurement using graphic processing unit | Graduate School of Sci. and Eng., Saitama Univ., 1, School of Eng., Saitama Univ., 2,@*Nobukazu Yoshikawa 1, Tatsuya Matsukawa 1, Yosuke Hiraki 2 |
| 14 | 3D Measurements in PC Camera using Laser Scanner | Aichi Univ.Tech@Shotaro KINOSHITA, Yoshinori HATANAKA |
| 3.5 Information Optics |
| March 18 9:00`12:00 |
| 18a-J - 1`11 |
| 1 | Algorithm for separating halftone dots considering optical dot gain in ink boundary | Muroran Inst. Tech.@* Tomonori Yuasa 1, Masaki Kakumoto 1, Yoshihisa Aizu 1 |
| 2 | Aging Simulation of Skin Texture | Chiba Univ. 1@*Hosooka Shinsuke 1, Tsumura Norimichi 1, Nakaguchi Toshiya 1 |
| 3 | Optical Mount System Using LEGO Bricks II | Osaka Univ. 1, PARC 2@Junichi Takahara 1,2 |
| 4 | An avoidable technique of faulty LASERs on dynamic optically reconfigurable gate arrays | Shizuoka Univ.@*Seto Daisaku 1, Watanabe Minoru 1 |
| 5 | Binary counter with optical input using DNA conformation | Osaka Univ. 1@*Hiroto Sakai 1, Yusuke Ogura 1, Jun Tanida 1 |
| ¢ | 6 | Optimization of second-harmonic of diffraction pattern in a Fourier transform hologram | Utsunomiya Univ. 1@*Hasegawa Satoshi 1, Hayasaki Yoshio 1 |
| | | Break 10:30`10:45 | |
| 7 | High speed face recognition system with holographic memory and stereo vision technology | Univ of yamanashi 1@Yagisawa Yasuaki 1,Honma Satoshi 1,Katsumata Akiyoshi 1 |
| ¢ | 8 | High-speed optical correlation system using holographic disc for video scene retrieval | Japan Womenfs Univ. Faculty of Science 1@*Anna Naito 1, Eriko Watanabe 1, Akiko Okada 1, Kashiko Kodate 1 |
| 9 | Verification of authentication accuracy of the optical spatial-frequency correlation system by use of fingerprint images | Chiba Univ. 1@*Takeishi Kazuyuki 1, Yoshimura Hiroyuki 1 |
| 10 | Parallel processing with photon counting Fourier transform | Grad. School of Eng., Kobe Univ. 1@*Sakiori Kenichiro 1, Nitta Kouichi 1, Matoba Osamu 1 |
| ¢ | 11 | Experimental Evaluation of Scattering Property of Three-dimensional Medium in PMMA | Kobe Univ. 1, AIST 2@T. Manabe 1, K. Nitta 1, O. Matoba 1, W. Watanabe 2 |
| 3.6 Biological and Medical Optics |
| March 19 9:00`17:00 |
| 19a-K - 1`12 |
| £ | 1 | Basic study on single shot full field OCT using spatially phase-modulated reference light
| Yamagata Univ. 1,Oregon Health & Science Univ. 2@*Nugroho Waskito 1,Hrebesh M.S. 2,Sato Manabu 1 |
| 2 | Simultaneous measurement of response to sound stimuli for sweat glands and peripheral vessels by optical probe
| Osaka@Univ.@Motomu Tanigawa 1, Gakuji Tamaki 1, Daisuke Takada 1, *Masato Ohmi 1, Masamitsu Haruna 1 |
| ¢ | 3 | Ultra-high resolution optical coherence tomography (UHR-OCT) imaging with wavelength tunable super continuum source at 1.7 mm wavelength region | Osaka University@Shutaro Ishida 1, Norihiko Nishizawa 1, Takefumi Ohta 1 , Kazuyoshi Itoh 1 |
| 4 | Spatial coherence characteristics for OCT observation of biological tissue | Tokyo Univ. of Agri. and Tech.@*Natsuki Ikuta 1,Johtaro Yamamoto 1,Tetsuya Tsugita 1, Toshiaki Iwai 1 |
| 5 | Ultrahigh resolution full-field optical coherence tomography for human retinal imaging | Topcon corp. 1, Kyoto Univ. 2@*Masahiro Akiba 1, Yasufumi Fukuma 1, Masanori Hangai 2, Nagahisa Yoshimura 2, Kinpui Chan 1 |
| 6 | High contrast imaging of lung structure using ultrahigh resolution OCT at 0.8 um | Osaka Univ. 1, HOYA 2, Nagoya Univ. 3@*Nishizawa Norihiko 1, Ishida Shutaro 1, Ohta Takefumi 1, Itoh Kazuyoshi 1, Kitatsuji Masashi 2, Ohshima Hiroyoshi 2, Matsushima Miyoko 3, Kawabe Tsutomu 3 |
| | | Break 10:30`10:45 | |
| ¢ | 7 | Optical Coherence Tomography Using a Soliton Pulse Train from a Photonic Crystal Fiber | Chitose Institute of Science and Technology 1@*Yoshihiko Takabatake@1, Minoru Bunya 1, Kazuhiro Tada 1, Naoki Karasawa 1 |
| 8 | Study on influences of temperature to OCT signal intensity in rat brain | Yamagata Univ. 1,Tokyo Univ.of Agriculture and Technology 2@*Nomura Daisuke 1,Takahashi Toshihiro 1,Nishidate izumi 2,Sato Manabu 1 |
| ¢ | 9 | Visualization of oxygen saturation level of retinal capillary vessel area | Grad. Sch. of ISEE, Kyushu Univ. 1, Grad. Sch. of Design, Kyushu Univ. 2, National Kyushu Medical Center 3, Grad. Sch. of Medical Sciences, Kyushu Univ. 4@Kenichi Tatsuguchi 1, Noboru Matsuoka 1, Daisuke Nakamura 1, Tatsuo Okada 1, Yukiyasu Yoshinaga 2, Hirosi Enaida 3, Tatsurou Ishibashi 4 |
| 10 | Confocal Scanning Laser Spectroscopy on Retina | Nat. Inst. of AIST@*Hiromitsu Furukawa, Hidenobu Arimoto, Ryuji Sawada, Tomohiro Shirai |
| 11 | Physiological measurements via skin using simultaneous speckle imaging of blood flow and concentration | Muroran Inst. Tech. 1, Asahikawa Nat. Col. Tech. 2@Tani Katsuhiro 1, Hirata Tatsuya 1, Yokoi Naomichi 2, and *Aizu Yoshihisa 1 |
| 12 | Analysis of the image compression rate of a mobile phone camera for health monitoring via skin | Muroran Inst. Tech. 1, Tokyo Univ. A.&G. BASE 2@Tomonori Yuasa 1, Yuuki Fujiwara 1, Izumi Nishidate 2, Yoshihisa Aizu 1 |
| | | Lunch 12:15`13:15 | |
| 19p-K - 1`14 |
| 1 | Compact optically assisted ultrasonic velocity change imaging equipment | Osaka Prefecture Univ.1@*Sakurai Hajime1,Sano Daisaku1,Ohara Yuya1,Matsuyama Tetsuya1,Wada Kenji1,Matsunaka Toshiyuki1,Horinaka Hiromichi1 |
| 2 | Suppression of influence of heartbeat on optically assisted ultrasonic velocity change imaging | Osaka Prefecture Univ.1@*Sano Hajime1,Sakurai Daisuke1,Maeda Yoshinori1,Matuyama Tetsuya1,matunaka Toshiyuki1,Horinaka Hiromichi1 |
| 3 | Improvement of the Spatial Resolution in Bio-Speckle Blood Flow Imaging | Asahikawa Nat. Col. Tech. 1, Muroran Inst. Tech. 2@*Naomichi Yokoi 1, Katsuhiro Tani 2, Tatsuya Hirata 2, Yoshihisa Aizu 2 |
| 4 | Optimization of Condition in Translusency Measurement with Colorimeter | Kao Co. 1@Yoshida Kenichiro 1,Ojima Nobutoshi 1,Iwata Kayoko 1
|
| ¢ | 5 | Skin Image Reproduction Method Based on Color Generation Using Optical Skin Model | Muroran Inst. Tech. 1, Shiseido 2@*Takaaki Maeda 1, Saya Yamamoto 1, Sayuri Kamada 1, Tomohiro Kuwahara 2, Tetsuji Hirao 2, Yoshihisa Aizu 1 |
| 6 | RGB-Analysis and Synthesis of Texture Components in Skin Images | Muroran Inst. Tech. 1, Shiseido 2@Saya Yamamoto 1CTakaaki Maeda 1CTomohiro Kuwahara 2CTetsuji Hirao 2CYoshihisa Aizu 1 |
| 7 | Spectral Color Analysis of Pseudoxanthoma Elasticum Using Multi-Layered Skin Model | Muroran Inst. Tech. 1, Kyoto Univ. 2, Shiseido Research Center 3@*Sayuri Kamada 1, Jun Yoshimura 1, Takaaki Maeda 1, Eri Araki 2, Atsushi Utani 2, Yuki Ogura 3, Tetsuji Hirao 3, and Yoshihisa Aizu 1 |
| 8 | Experimental consideration of change in skin condition using multi-layered skin phantom | Muroran Inst. Tech. 1, Shiseido Research Center 2@Jinbo Naoto 1, Maeda Takaaki 1, Kuwahara Tomohiro 2, Hirao Tetsuji 2, *Aizu Yoshihisa 1 |
| | | Break 15:15`15:30 | |
| 9 | Light propagation in multi-layered models of skin and lip:Effect of measurement systems | Keio Univ. 1@Shoji Takano 1, Eiji Okada 1 |
| 10 | Visualization of skin hemodynamics based on RGB image -Animal study- | Tokyo Univ. Agri. Tech. BASE 1, Tokyo Univ. Agri. Tech. 2, Muroran Inst. Tech. 3, Yamagata Univ. 4@*Nishidate Izumi 1, Kawase Tatsuya2, Maeda Takaaki 3, Yuasa Tomonori 3, Yuasa Tetsuya 4, Niizeki Kyuichi 4, Aizu Yoshihisa 3
|
| 11 | Assessment of skin chromophore concentrations after UV exposure based on RGB image | Tokyo Univ. Agri. Tech. 1, Tokyo Univ. Agri. Tech. BASE 2, Muroran Inst. Tech. 3, Yamagata Univ. 4@*Kawase Tatsuya 1, Nishidate Izumi 2, Maeda Takaaki 3, Yuasa Tomonori 3, Yuasa Tetsuya 4, Niizeki Kyuichi 4, Aizu Yoshihisa 3
|
| 12 | Histological and morphological change of the laser irradiation on the protein | Kinki Univ. 1@*Yuichi Hashishin 1, Shu Sano 1, Takeyoshi Nakayama 1 |
| 13 | Efficient ablation of dental hard tissues using CO2 laser light | Tohoku Univ. Graduate school of Engineering 1, Tohoku Univ. Graduate school of Biomedical Engineering 2 @*Tomonori Watanabe 1, Yuji Matsuura 2 |
| 14 | Ultrashort pulse laser induced membrane potential hyperpolarization and depolarization in biological cells | Dept. of Applied Physics, Osaka Univ. 1, iFReC, Osaka Univ. 2, JST 3, RIKEN 4@*Jun Ando 1, Nicholas Smith 2, Katsumasa Fujita 1,3, Satoshi Kawata 1,4 |
| 3.6 Biological and Medical Optics |
| March 20 9:00`14:30 |
| 20a-K - 1`11 |
| 1 | Application of Donut Shaped Assist Light to Cyclic Sequential Multiphoton Microscopy | RIKEN 1, Keio Univ. 2@*Isobe Keisuke 1, Suda Akira 1, Hashimoto Hiroshi 2, Kannari Fumihiko 2, Kawano Hiroyuki 1, Mizuno Hideaki 1, Miyawaki Atsushi 1, Midorikawa Katsumi 1 |
| 2 | Primary culture of rat neurons on the cover slip coated with acethylcholine esterase | Hamamasyu Univ. Sch. Med.@Takashi Sakurai 12, Shouko Takenaga 23, Kazuya Atsumi 23, Kengo Hirai 23, Kouichi Okumura 23, Remi Susuki-Tsuchiya 1, Hideo Mogami 12, Susumu Terakawa 12, Kazuaki Sawada 23 |
| 3 | Measurement of absolute two-photon induced photoconversion spectrum of functional fluorescent protein using nonlinear Fourier transform spectroscopy | RIKEN 1,Keio Univ. 2@*Hashimoto Hiroshi 1,2,Isobe Keisuke 1,Suda Akira 1,Kannari Fumihiko 2,Kawano Hiroyuki 1,Mizuno Hideaki 1,Miyawaki Atsushi 1,Midorikawa Katsumi 1 |
| 4 | In vivo observation of collagen fiber structure in human dermis using second-harmonic-generation (SHG) microscopy | Grad. Sch. Engg. Sci. Osaka Univ. 1 Sch. Engg. Sci. Osaka Univ. 2 Shiseido Research Center@*Yonetsu Makoto 1, Tanaka Ryosuke 2, Yasui Takeshi 1, Yamashita Toyonobu 3, Ogura Yuki 3, Hirao Tetsuji 3, Araki Tsutomu 1 |
| 5 | Selective Detections of HbA1c using Surface Enhanced Resonance Raman Scattering Spectroscopy | AIST 1@*Tamitake Itoh@1, Manikantan Syamala Kiran@1, Ken-ichi Yoshida@1, Nagako Kawashima 1, Vasudevanpillai Biju 1, Mitsuru Ishikawa 1 |
| | | Break 10:15`10:30 | |
| 6 | Two-Dimensional Correlation Analysis of a Biological Tissue | RIKEN 1CToin Univ. 2, Tohoku Univ. 3@*Sota Takanezawa 1, 2, Shin-ichi Morita 1, Atsushi Maruyama 1, Takurou N. Murakami 2,@Norimichi Kawashima 2, Hiroyuki Endo 3, Katsunori Iijima 3, Tohru Asakura 3, Tooru Shimosegawa 3, Hidetoshi Sato 1
|
| ¢ | 7 | Real-time CARS imaging of lipid distribution in membrane disruption of living cells | Grad. Sch. Engg. Sci. Osaka Univ. 1, Inst. Nano. Design Osaka Univ. 2@Minamikawa Takeo 1, Niioka Hirohiko 2, Araki Tsutomu 1, Hashimoto Mamoru 1 |
| 8 | Analysis on Raman Spectra of a Biological Tissue | RIKEN, P&G, Toin Univ.@*Shin-ichi Morita 1, Sota Takanezawa 1,3, Akira Date 2, Naoko Inamori 2, Shin Watanabe 2, Takuro Murakami 3, Norimichi Kawashima 3, Hidetoshi Sato 1 |
| ¢ | 9 | Depth Profiling Analysis By Miniaturized Raman Probes | Kwansei-Gakuin Univ.@*Yuko S. Yamamoto, Yukihiro Ozaki, Hidetoshi Sato |
| 10 | Endocytosed gold nanoprticles for enhancement of Raman scattering from intracellular molecules | Dept.Applied Physics, Osaka Univ. Oubutsu Univ. 1, JST 2, iFREC 3, RIKEN 4@*Kasai Hiroshi 1, Ando jun 1, Fujita Katsumasa 1,2, NIcholas Smith 3, Kawata Satoshi 1,4 |
| 11 | Development of Compact Color-tunable LED Light Source for LED Gastrointestinal Endoscope | Grad. school of Sci. & Eng.,Yamaguchi Univ. 1,Fac. of Eng.,Yamaguchi Univ. 2@*Ogawa Yuya 1,Hayashi Hideki 1,Yunoki Ryohei 2,Kurai Satoshi 1,Taguchi Tsunemasa 1 |
| | | Lunch 12:00`13:00 | |
| 20p-K - 1`6 |
| 1 | Fabrication of the plasmon chip using nanoimprint technology | Osaka Univ.@Masato Saito, Akito Kitamura, Kenji Kondo, Eiichi Tamiya |
| ¢ | 2 | Supposition and its Verification for Mechanism of the Exaggeration of the Horizon Moon | Tokai Univ. 1@*Uematsu Shinya 1, Omodani Makoto 1 |
| ¢ | 3 | Gas phase visualization system with enzyme reaction for breath ethanol | Tokyo Medical and Dental Univ. 1, Tokyo National College of Technology 2@*Kazutaka Kita 1, Eri Ando 1, Xin Wang 1, Daishi Takahashi 1, Takahiro Arakawa 1, Hiroyuki Kudo 1, Hirokazu Saito 2, Kohji Mitsubayashi 1 |
| 4 | Real-time blood vessel imaging using diffusing light topography | BASE Tokyo Univ. of Agri. and Tech. 1@*Mizuki Maeda 1,Toshiaki Iwai 1 |
| 5 | Signal analysis of brain function measurements by multi-probe NIRS | Keio Univ. 1@Shohei Seki 1, Wataru Matsui 1, Yutaka Niki 1, *Eiji Okada 1 |
| 6 | Evaluation of near-infrared topography by using digital head phantom | Keio Univ. 1@Yusuke Yoshida 1, Hirokazu Kakuta 1, *Eiji Okada 1 |
| 3.7 Near-Field Optics |
| March 17 |
| 17a-P1 - 1`35 |
| |
17a-P1-1`35@Poster Session 9:30`11:30 |
| ¢ | 1 | Enhancement of excimer emission by single silver nanocubes | Osaka Univ. 1,Nagoya Univ. 2@Yasukuni Ryohei 1,Okazaki Ken-ichi 2,Oki Makoto 2, Torimoto Tsukasa 2,Asahi Tsuyoshi 1 |
| 2 | Numerical analysis of electric field enhancement by a wedge-shaped crack on metal surface | Ehime Univ. 1@*Yamamoto Naoki 1,Ichikawa Hiroyuki 1 |
| 3 | Theory of Edge- and Cusp-specific Nonlinear Optical Near Field based on Fluid Dynamics of Electron | Yamanashi Univ.@*Banno Itsuki 1, Fujima Kazumi 1 |
| 4 | Polarization Features of Stacked 2D Complementary Plasmonic Crystal Slabs | NIMS 1@Masanobu Iwanaga 1 |
| 5 | Analysis of Second Harmonic Generation in Self-Assembled Monolayers Adsorbed on Gold Nanospheres
| Int. Grad. Sci. & Eng., Tokyo Inst. Tech. 1@*Yamaguchi Tatsuya 1,Kajikawa Kotaro 1 |
| 6 | 2nd-order nonlinear optical effects on a metallic metamolecular system | Int. Grad. Sci. & Eng.CTokyo Inst. Tech. 1, Saitama Inst. Tech. 2@Uchiho Yuichi 1, Shimojo Masayuki 2, Kajikawa Kotaro 1 |
| 7 | Auto-correlation measurement of spatio-temporal plasmon field irradiated by femtosecond laser with a dark field microscope | Keio Univ. 1@*Jun Oi 1, Takuya Harada 1, Naoko Sugiura 1, Keiichiro Matsuishi 1, Fumihiko Kannari 1 |
| 8 | Pumping Power Dependence of Optical Nonlinearity of Metal Nanoparticles | QBC, NIMS 1, Pure and Applied Sciences, Univ. Tsukuba 2, CISS, Univ. Tokyo 3, CMSC, NIMS 4@*Yoshihiko Takeda 1,2, Hiroyoshi Momida 3,4, Rodrigo Sato 2,Masato Ohnuma 1, Takahisa Ohno 3,4, Naoki Kishimoto 1 |
| 9 | Fabrication of sub-wavelength Aluminum rectangular hole-arrays | Toyota Central R&D labs. 1,NIMS 2@*Miura Atsushi 1,Nomura Tsuyoshi 1,Inoue Daisuke 1,Fujikawa Hisayoshi 1,Sato Kazuo 1,Ikeda Naoki 2,Tsuya Daiju 2,Sugimoto Yoshimasa 2,Koide Yasuo 2 |
| 10 | Reflective Characteristics of Gold Nano-brush Electrode and Its Application for Display Device | Tokyo Polytechnic University1, Tokyo Polytechnic University2@*Katsumi Yamada1, Gyosuke Kimura2, Junji Sone1 |
| 11 | Enlarged Imaging in Far Field for Surface Plasmon Interference | Iwate Univ.@*Yoshioka Yasunari 1, Daibo Masahiro 1 |
| ¢ | 12 | Study on Localized Surface Plasmon Resonance of Extremely Small Gold Nano-Particles | Graduate School of AdSM,Hiroshima Univ.1@*Kitai Toshiyuki 1, Sakaue Hiroyuki 1, Suzuki Hitoshi 1, Takahagi Takayuki 1 |
| 13 | Negative refraction in negative dielectric film II | Osaka Univ. 1@Koji Kamada 1, Junichi Takahara 1, Tadao Nagatsuma 1 |
| 14 | Fabrication of waveguide-type structures for superfocusing of surface plasmons | NICT 1, Osaka Univ. 2@*Yamamoto Kazuhiro1, Takahara Junichi 1,2, Otomo Akira 1 |
| 15 | Polarization properties of checker-board patterns in terahertz region | Shinshu Univ. 1, PRESTO 2, Osaka Univ. 3, Tohoku Univ. 4@*Hanaoka Naoki 1, Miyamaru Fumiaki 1,2, Takano Keisuke 3, Hangyo Masanori 3, Miyazaki Hiroshi 4, Takeda Mitsuo 1 |
| 16 | Determination of a diameter and refractive index of a silver-coated nano-cylinder suggesting Plasmon effect (2)
| Yokohama Nat. Univ.1@Tajima Fumiaki 1,Nishiyama Yoshio 1 |
| 17 | PL enhancement of dye molecules embedded in a MIM structure | Graduate School of Engineering, Kobe Univ. 1@*SukChan Kim 1, Minoru Fujii 1, Shinji Hayashi 1 |
| 18 | Evaluation of 6P-Nanowires Orientation Using Anisotropic Propagation of Surface Plasmon Polaritons | Graduate School of Engineering Kobe Univ. 1,@*Youhei Takeichi 1, Minoru Hujii 1, Shinji Hayashi 1 |
| 19 | Characteristic Evaluation of a Plasmonic Racetrack Resonator | Anan NCT 1, Toyohashi Univ. of Tech. 2, Tokushima Univ. 3@Hiroyuki Okamoto 1, Kenzo Yamaguchi 2, Masanobu Haraguchi 3, Toshihiro Okamoto 3 |
| 20 | Second harmonic generation due to field enhancement in gold block dimer | The Univ. of Tokushima 1@Okamoto Toshihiro 1, Matsushita Yoshiki 1, Hashiguchi Hiroshi 1, Haraguchi Masanobu 1, Fukui Masuo 1
|
| 21 | The properties of the Grating type Surface Plasmon Polariton excitation device | The Univ. of Tokushima 1,FRC The Univ. of Tokushima 2,Nichia corp. 3@Tomoyasu Nakada 1,Yoshinori Nakagawa 2,3,Masanobu Haraguchi 1,Toshihiro Okamoto 1, Toshiro Isu 2, Genichi Shinomiya 3 |
| 22 | Design of plasmonic waveguide devices by using theory of microwave transmission lines (II) | The Univ. of Tokushima@*Haraguchi Masanobu 1, Okamoto Toshihiro 1, Fukui Masuo 1 |
| 23 | Evaluation of light-scattering property of a Ag split-ring resonator | The Univ. of Tokushima@Sato shuji 1,Fukuta tetsuya 1,Okamoto Toshihiro 1,Haraguti Masanobu 1 |
| 24 | Design and Assessment of Split Ring Resonator structure | The Univ. of Tokushima@Fuso Hirofumi 1, Okamoto Toshihiro 1, Haraguchi Masanobu 1, Fukui Masuo 1 |
| 25 | Evaluation of transmission spectra of a plasmon waveguide with a stub | The Univ. of Tokushima@*Sogabe Hidenori 1,Okuno Tatsuya 1,Haraguchi Masanobu 1,Okamoto toshihiro 1,Fukui Masuo 1 |
| ¢ | 26 | Fabrication and Optical Characteristics of a Periodic Nanofocusing Arrays | Toyohashi Univ. of Technology 1, Toba National College of Maritime Technology 2, Nanophotonics Pty Ltd 3@Yamaguchi Kenzo 1, Fujii Masamitsu 2, Gramotnev Dmitri 3, Fukuda Mitsuo 1 |
| 27 | Au Double Nanopillars with Nanogap for Plasmonic Sensor | RIKEN, JST CREST@*Kubo Wakana 1,2, Fujikawa Shigenori 1,2 |
| 28 | Fabrication of multilayered nanodot using alumina nanohole array and its optical properties | KAST 1, Tokyo Metropolitan Univ. 2@*Kondo Toshiaki 1, Miyazaki Hayato 2, Nishio Kazuyuki 1,2, Masuda Hideki 1,2 |
| 29 | Fabrication of three dimensional ordered Au nanostructures and their spectroscopic properties | RIES-Hokkaido Univ. 1, PRESTO-JST 2@*Naoki Murazawa 1, Daisuke Aoyo 1, Kosei Ueno 1,2, Hiroaki Misawa 1 |
| £ | 30 | Stability of plasmonic spectral properties with and without titanium coated on the top of engineered silver nanorods | Zhejiang Univ. 1,RIES-Hokkaido Univ. 2,PRESTO-JST 3@*Wang Li 1,Nishijima Yoshiaki 2,Yokota Yukie 2,Ueno Kosei 2,3, Misawa Hiroaki 2, Qiu Jian-rong 1 |
| 31 | Analysis of the electric field enhancement of folded nanosheet plasmon cavity | Tohoku Univ. 1,NIMS 2,Nihon Univ. 3@*Ebe Hiroki 1,Miyazaki Hideki 2,Jimba Yoji 3,Miyazaki Hiroshi 1 |
| 32 | Experimental identification of mode-selective chemical effects in surface enhanced Raman scattering of 4-aminothiophenol | Osaka Univ. 1, JST-CREST 2, RIKEN 3@Kazumasa Uetsuki 1, Prabhat Verma 1,2, Taka-aki Yano 1,2, Yuika Saito 1, Taro Ichimura 1,2, Satoshi Kawata 1,2,3 |
| 33 | Analysis of the assembling structure and surface enhanced Raman scattering properties of 100 nm Au nanoparticles | Osaka Univ. 1@*Yoshikawa Hiroyuki 1,Sathuluri Ramachandra Rao 1,Tamiya Eiichi 1 |
| 34 | Surface-enhanced Raman scattering properties of closely-spaced gold nanoparticles | RIES-Hokkaido Univ. 1,PRESTO-JST 2@*Yokota Yukie 1,Ueno Kosei 1,2,Misawa Hiroaki 1 |
| 35 | Fabrication of Hollow Spheres with Porous Structures by Anodization of Small Particles and Its Applications | Tokyo Metropolitan Univ.1, KAST2@* Imaizumi Masahiko1, Yanagishita Takashi1,2, Nishio Kazuyuki1,2, Masuda Hideki1,2 |
| 3.7 Near-Field Optics |
| March 18 |
| 18a-P4 - 1`31 |
| |
18a-P4-1`31@Poster Session 9:30`11:30 |
| ¢ | 1 | Toward local optical control of spin clusters I:shape variation between spin singlet and triplet | Tokyo Inst. of Tech. 1@* Liu Xuan 1, Asami Takayuki 1, Ito Haruhiko 1 |
| ¢ | 2 | Toward local optical control of spin clusters II: spin polarization of laser-cooled atoms | Tokyo Institute of Technology@*Asami Takayuki,Liu Xuan,Ito Haruhiko |
| 3 | Surface Topology Measurements by Dual-probe SNOM | AIST@*Sigehuzi Tomoo |
| 4 | Demonstration of surface plasmon localization with a metal coated axicon prism | Shizuoka Univ. 1, Division of Global Research Leaders 2, JST CREST 3@*Sano Hiroki 1, Ono Atsushi 2,3, Inami Wataru 2,3, Kawata Yoshimasa 1,3 |
| 5 | Development of electron-beam excited optical microscope with ultra-high resolution | Shizuoka Univ. GRL 1, Shizuoka Univ. Faculty of Engineering 2, JST-CREST 3@*Wataru Inami 1,3, Kentaro Nakajima 2, Atsuo Miyakawa 2,3, Yoshimasa Kawata 2,3 |
| 6 | Fabrication of near-field optical probe based on electroless plating under nitrogen atmosphere | Toyo Univ.@*Shuji Mononobe 1, Hiroyuki Tanaka 1, Yuji Tomioka 1, Kazuto Teramoto 1, Yuki Masuda 1, Yuki Koda 1 |
| ¢ | 7 | Development of Dual-probe Scanning Near-field Optical Microscope | Kyoto Univ. 1@*Hashimoto Tsuneaki 1,Nishimura Katsuhito 1,Kaneta Akio 1,Funato Mitsuru 1,Kawakami Yoichi 1 |
| ¢ | 8 | Analysis of photon localization in metal nanostructures by using a scattering type near?field optical microscope (II) | RIES, Hokkaido Univ. 1, JST-PRESTO 2@*Tanaka Yoshito 1, Ishiguro Hiroyasu 1, Fujiwara Hideki 1,2, Yokota Yukie 1, Ueno Kosei 1,2, Misawa Hiroaki 1, Sasaki Keiji 1 |
| 9 | Large area fabrication of gold nanostructures on TiO2 by laser interference lithography and photoelectric conversion characteristics of the substrates | RIES-Hokkaido Univ. 1,PRESTO-JST 2@ *Go Araki 1,Yoshiaki Nishijima 1,Naoki Murazawa 1,Kosei Ueno 1,2,Junji Nishii 1, Hiroaki Misawa 1
|
| 10 | Photo-electron energy conversion via TiO2 /Au nanostructures | RIES Hokkaido Univ. 1, PRESTO-JST 2, Graduate School of Science, Hokkaido Univ. 3@*Yoshiaki Nishijima 1, Kosei Ueno 1,2, Yukie Yokota 1, Kei Murakoshi 3, Hiroaki Misawa 1 |
| 11 | Enhancement of Light Sensitivity of SOI-MOS Photodiode by Gold Line-And-Space Surface Plasmon Antenna
| Research Inst. Electronics, Shizuoka Univ.@*Hiroaki Satoh 1, Yuki Matsuo 1, Hiroshi Inokawa 1, Yoshikazu Anma 1, Atsushi Ono 1 |
| 12 | Detection of surface plasmon with Schottky barrier | Toyohashi Univ. of Tech.1@›(B)Takuma Aihara, Kazuma Miyaji, Y. Y. Ling, Kenzo Yamaguchi, and Mitsuo Fukuda
|
| ¢ | 13 | Development of a nonadiabatic wavelength-selective photoelectric transducer | Univ. of Tokyo 1, Nanophotonic Research Center 2@*Yukutake Sotaro 1, Kawazoe Tadashi 1,2, Yatsui Takashi 1,2, Ohtsu Motoichi 1,2 |
| ¢ | 14 | Improvement of sensitivity in infrared region of silicon photoelectric transducer using nonadiabatic process induced by optical near-field
| Univ. of Tokyo 1, Nanophotonics Research Center 2@*Takagi Hiroaki 1, Kawazoe Tadashi 1,2, Ohtsu Motoichi 1,2 |
| ¢ | 15 | Modification of ZnO quantum dot using Avidin for a nanophotonic device | Univ. Tokyo 1, NICT 2, Hokkaido Univ. 3, IIS, Univ. Tokyo 4@*Morishima Tetsu 1, Ryu You 1, Nomura Wataru 1, Yatsui Takashi 1, Kawazoe Tadashi 1, Naruse Makoto 1,2, Yonezawa Tetsu 3, Washizu Masao 1, Fujita Hiroyuki 4, Ohtsu Motoichi 1 |
| ¢ | 16 | Controlling the size of ZnO QD using an optical near-field | Dep. Eng., Univ.Tokyo 1@*You Ryu 1, Tetsu Morishima 1, Takashi Yatsui 1, Motoichi Ohtsu 1 |
| ¢ | 17 | Emission from an optically forbidden level in a ZnO quantum dot induced by the near field interaction with a fiber probe | Univ. of Tokyo@Masahiro Tsuji 1, You Ryu 1, Tetsu Morishima 1, Takashi Yatsui 1, Motoichi Ohtsu 1 |
| ¢ | 18 | Evaluation of anti-correlated feature of the emission from InAs quantum dots due to optical near-field interaction
| Univ. of Tokyo 1, Pioneer corp 2, NICT 3@Oyama Ryoma 1,Kawazoe Tadashi 1,Yatsui Takashi 1,Naruse Makoto 1,3,Ohtsu Motoichi 1,Sawado Yoshiyuki 2,Yoshizawa Katsumi 2,Akahane Kouichi 3,Yamamoto Naokatsu 3 |
| 19 | Energy transfer in multi-stacked InAs quantum dots | NICT@1, Univ. of Tokyo 2@*Akahane Kouichi 1, Yamamoto Naokatsu 1, Naruse Makoto 12, Kawazoe Tadashi 2, Yatsui Takashi 2, Ohtsu Motoichi 2 |
| 20 | Polarization controlled emission of InAs QDs by using gold nano rods | Univ.Tokyo 1@*Yamamoto Takumi 1,Kawazoe Tadashi 1,Ohtsu Motoichi 1 |
| 21 | Minimum Energy Dissipation in Signal Transfer via Optical Near-Field Interactions | NICT 1, Univ. Tokyo 2, Yamanashi Univ. 3@Makoto Naruse 1,2, Hirokazu Hori 3, Kiyoshi Kobayashi 3, Tadashi Kawazoe 2, Takashi Yatsui 2, Motoichi Ohtsu 2 |
| 22 | Application of Implicit Symplectic FDTD method to Near-Field Optics | Future-Univ. Hakodate 1,NICT 2,Univ. of Tokyo 3@*Ikuo Saitoh 1,Makoto Naruse 2,3 |
| 23 | Study on Extraordinary Transmission and Focusing of Light Wave Through A Pair of Sub-wavelength Holes on Metallic Thin Film by Three Dimensional Electromagnetic Simulation | Osaka Univ. 1@*Oshikane Yasushi 1, Esaki Masanori 1, Nakano Motohiro 1, Goto Toshiya 1, Nakao Yuki 1, Inoue Haruyuki 1, Kataoka Toshihiko 1 |
| 24 | FDTD simulated observation of a gold nanorod by scanning near-field optical microscopy | Shinshu Univ. 1, National Inst. for Fusion Science 2, Keio Univ. 3, Waseda Univ. 4,Inst. for Molecular Science 5@*Maruoka Teruto 1, Sawada Keiji 1, Nakamura Hiroaki 2, Saiki Toshiharu 3, Imura Kohei 4, Okamoto Hiromi 5 |
| 25 | A study on the near-field induced force on a molecule based on the density functional theory | IMS 1, SOKENDAI 2@*Iwasa Takeshi 1, Nobusada Katsuyuki 1,2 |
| ¢ | 26 | Edge dependence of near-field light generated on a nano-slit | Tokyo Institute of Technology 1,@*Sato Tomohiro 1,Ito Haruhiko 1 |
| 27 | Controlled Photo-Synthesis of Single Ag Nanoparticles and Immobilization by Light Scattering Force | AIST 1,Osaka Univ. 2@*Tamitake Itoh 1,Hideya Nagata 1,Yasutaka Kitahama 1,Vasudevanpillai Biju 1,Mitsuru Ishikawa 1,Syoji Ito 2,Hiroshi Miyasaka 2 |
| 28 | Fabrication of Self-Assembled Monolayer of Gold Nanoparticles using Electrophoresis Method
| NIMS 1, Tsukuba Univ. 2,@*Takao Ochiai 1,2, Katsuhiro Isozaki 1, Tomoya Taguchi 1,2, Kohichi Nittoh 1, Kazushi Miki 1,2 |
| 29 | Application of electrospun nanofibers to plasmonic materials | Tokyo Tech.@*Kazuma Tsuboi 1, Masanari Saigusa 1, Minoru Ashizawa 1, Hidetoshi Matsumoto 1, Mie Minagawa 1, Akihiko Tanioka 1 |
| 30 | Photon-Antibunching Behavior of Single Semiconductor Nanocrystals Coupled with Plasmon near Metal-Nanostructure. | Kyoto Institute of Technology 1, PRESTO-JST 2@*Teruhisa Tanaka 1, Hiroyuki Naiki 1, Sadahiro Masuo 1,2, Shinjiro Machida 1, Akira Itaya 1
|
| 31 | Near-Field Photoluminescence Spectroscopy with an Optical Mask Using Phase Change Material | Keio Univ.@*Nobuhiro Tsumori, Ryosuke Kubota, Hisashi Santo, Toshiharu Saiki |
| 3.8 New Fields |
| March 17 9:00`12:45 |
| 17a-K - 1`15 |
| 1 | Evaluation of Radiation Force Potential Acting on Nanoparticles in Solution | Osaka Univ. 1, PRESTO JST 2@*Syoji Ito 1, 2, Hiroaki Yamauchi 1, Hiroshi Miyasaka 1 |
| 2 | Theory of the measurement of light-induced force in a hybrid system of metal and organic nanostructures
| N2RC Osaka Pref. Univ. 1, PRESTO-JST 2, Grad. Sch. of Eng. Sci. Osaka Univ.3@*Takuya Iida 1,2, Syoji Ito 2,3 |
| 3 | Optimization of cell sorting system using holographic optical tweezers | Tokyo Univ. of Agri.and Tech. 1@*Doi Yuki 1,Yamamoto Johtaro 1,Iwai Toshiaki 1 |
| 4 | Au nano-particles manipulation using a holographic multiple-vortex tweezer | Chiba Univ. 1@*Kanomata Ken 1, Kameda Nana 1, Okida Masahito 1, Kobayashi Norihisa 1, Omatsu Takashige 1 |
| ¢ | 5 | Suitable pulse duration for pulse laser assist optical tweezers | Nara Institute of Science and Technology 1@*Saki Maeda 1, Tadao Sugiura 1, Kotaro Minato 1 |
| ¢ | 6 | Laser trapping dynamics of gold nanoparticles in solution by wide-field light scattering microspectroscopy | National Chiao Tung Univ. 1, Nara Inst. Sci. Tech.@*Uwada Takayuki 1,2, Sugiyama Teruki 2, Miura Atsushi 1, Masuhara Hiroshi 1,2 |
| 7 | Nonlinear Effect in Trapping of Gold Nanoparticles with a Femtosecond Laser | Inst. Mol. Sci. 1, Grad. Univ. Adv. Studies 2@Jiang Yuqiang 1, Narushima Tetsuya 1,2 *Okamoto Hiromi 1,2 |
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8 |
Manipulation and Application of DNA Pulling and Pinning on Au Surface with a Laser |
Chuo Univ.@*Sho Fujii 1, Katsuhiko Kanaizuka 1, Shoichi Toyabe 1, Tetsuaki Okamoto 1, Eiro Muneyuki 1, Masa-aki Haga1 |
| ¢ | 9 | Local operation of DNA logic gates by optical manipulation of microdroplets | Osaka Univ.@*Nishimura Takahiro, Ogura Yusuke, Tanida Jun |
| ¢ | 10 | Formation dynamics of dense liquid droplet of glycine by photon pressure due to near-infrared laser irradiation | Grad. Sch. Mate. Sci., NAIST 1, NCTU in Taiwan 2@*Yuyama Ken-ichi 1, Sugiyama Teruki 1, Masuhara Hiroshi 1,2 |
| 11 | Analysis of Low-Coherence Enhanced Backscattering by Pseudo-Spectral Time Domain Method
| Graduate School of Engineering Science, Osaka Univ. 1@*Yuichiro Tanaka, Yuki Omura, Yasuyuki Okamura |
| 12 | Properties of random laser media with a structure of fractal speckle | Kyushu Inst. Tech.@*Okamoto Takashi 1, Fujita Taiga 1 |
| 13 | Light transmission characteristics of a tapered fiber embedded in scattering nanoparticles | RIES Hokkaido Univ. 1, JST-PRESTO 2@*Fujiwara Hideki 1,2, Sasaki Keiji 1 |
| ¢ | 14 | Laser Ablation by circularly polarized vortex beam | Chiba Univ. 1, Hokkaido Univ. 2@*Chujo Keisuke 1, Miyamoto Katsuhiko 1, Morita Ryuji 2, Omatsu Takashige 1 |
| 15 | Cantilever Assisted Interference Microscopy | Univ. Tokushima 1@*Shin-ichiro Yanagiya 1, Nobuo Goto 1 |