March 7 (Tue) 16:00-18:30 Registration 18:00-20:00 Get-Together March 8 (Wed) 10:00-10:10 Welcome Address Teruo Kishi (President of NIMS) 10:10-10:20 Opening Remarks Nobuyuki Koguchi (NIMS-NML) 10:20-11:10 Keynote Lecture KL-1:Quantum Control of Electrons by Epitaxially Grown Semiconductor Nanostructures and Their Advanced and Exploratory Device Applications Hiroyuki Sakaki (University of Tokyo, Japan) 11:10-11:40 O-01:Light Matter Interaction Effects in Semiconductor Nanostructures Alfred Forchel (Julius-Maximilians-Universität Würzburg, Germany) 11:40-12:10 O-02:Spectroscopy of the Electronic Structure and the Wave Functions in Self-Assembled Quantum Dots and Rings Axel Lorke (University of Duisburg-Essen, Germany) 12:10-13:10 Lunch 13:10-14:00 Keynote Lecture KL-2:Silicon Integrated Nano-Photonics as a Commercial Technology Eli Yablonovitch (UCLA, USA) 14:00-14:30 O-03:Recent Progresses in 2D Photonic Crystals -Spontaneous Emission Control / Ultrahigh-Q Nanocavities - Susumu Noda (Kyoto University, Japan) 14:30-15:00 O-04:High Efficiency GaN LEDs by Photonic Crystal-Assisted Extraction Claude Weisbuch (Ecole Polytechnique, France) 15:00-15:30 O-05:Nano-Photonic Technologies in Photonic Crystal-/Quantum Dot-Combined System Kiyoshi Asakawa (University of Tsukuba, Japan) 15:30-15:50 Coffee Break (Room 202) 15:50-16:50 Activities in NIMS N. Koguchi, K. Sakoda, Y. Sakuma, T. Noda, T. Takamasu, T. Sekiguchi (NIMS-NML) 16:50-18:30 Poster Session, Activities in NIMS (Room 202) March 9 (Thu) 09:00-09:30 O-06:Photonic Band Gap Materials: New Approaches to Micro-fabrication and Functional Architectures Sajeev John (University of Toronto, Canada) 09:30-10:00 O-07:Control of Photon Wavelengths and Correlations Emitted from Single Quantum Dots Ikuo Suemune (Hokkaido University, Japan) 10:00-10:30 O-08:Nanophotonic Devices for Classical and Quantum Information Processing Jelena Vuckovic (Stanford University, USA) 10:30-10:45 Coffee Break 10:45-11:15 O-09:Photonic Crystal Membranes Thomas F. Krauss, David O'Brien (University of St. Andrews, UK) 11:15-11:45 O-10:Quantum Dot-Photonic Crystal Nanocavities: insights into coherent light emission Evelyn Hu (UCSB, USA) 11:45-12:15 O-11:Theory of Quantum State Transfer from Photon to Electron Spin and Electron Spin Decoherence Toshihide Takagahara (Kyoto Institute of Technology, Japan) 12:15-13:15 Lunch 13:15-13:45 O-12:Spin Relaxation in Charge Tunable Quantum Dots Yasuaki Masumoto (University of Tsukuba, Japan) 13:45-14:15 O-13:Optical Orientation of Nuclear Spins in a Quantum Dot and its Application to Qubit Conversion Shunichi Muto (Hokkaido University, Japan) 14:15-14:45 O-14:Photonic Crystal Nanocavities Positioned and Tuned for Cavity-QED Atac Imamoglu, Kevin Hennessy (ETH-Hönggerberg, Switzerland) 14:45-15:00 Coffee Break 15:00-15:30 O-15:CQED Effects on QDs : toward applications? Jean-Michel Gerard (CEA-DRFMC, France) 15:30-16:00 O-16:Quantum Logic Gates Using Excitons in Coupled Quantum Dots Kazuhiro Komori (AIST, Japan) 16:00-18:00 Lab tour 18:00-20:00 Banquet (Hotel Grand-SHINONOME) Opening: Masakazu Aono (Director-General NIMS-NML) Toast: Hideomi Koinuma (Vice-President, NIMS) March 10 (Fri) 09:00-09:30 O-17:Quantum Dots and Photonic Crystal for Quantum Information Devices Yasuhiko Arakawa (University of Tokyo, Japan) 09:30-10:00 O-18:Site-Controlled Quantum Dots and Writes: prospects for incorporation in photonic crysttals Elyahou Kapon, Fredrik Karlsson (EPFL, Switzerland) 10:00-10:30 O-19:Quantum Dots and Nanowires Grown by Selective Area MOVPE Takashi Fukui (Hokkaido University, Japan) 10:30-10:50 Coffee Break 10:50-11:20 O-20:Coherent Nonlinear Effects in Single Quantum Dots Hidehiko Kamada (NTT, Japan) 11:20-11:50 O-21:Electron and Nuclear Spin Effects in Quantum Dots Maurice Skolnick (University of Sheffield, UK) 11:50-12:20 O-22:Ultrafast Coherent Spectroscopy of Quantum Dots and Metallic Photonic Crystals Christoph Lienau (Max Born Institute, Germany) 12:20-13:30 Lunch 13:30-14:00 O-23:Generation of Entangled Photons from a Biexciton and Violation of Bell's Inequality Keiichi Edamatsu (Tohoku University, Japan) 14:00-14:30 O-24:Local Field Effect on Excitonic Rabi Oscillations in GaAs/AlGaAs Quantum Dots Fujio Minami (Tokyo Institute of Technology, Japan) 14:30-15:00 O-25:Ultrafast Switching and Spontaneous Emission Control Willem Vos (AMOLF-FOM, The Netherlands) 15:00-15:30 O-26:Vacuum Rabi Splitting with an InAs Quantum Dot in a Photonic Crystal Nanocavity Tomoyuki Yoshie (Duke University, USA) 15:30-15:40 Closing Remarks Kazuaki Sakoda (NIMS-NML)

Poster Presentations P-01 Self-Assembly of Concentric Quantum Double Rings by Droplet Epitaxy, T. Mano, T. Kuroda, K. Sakoda and N. Koguchi, National Institute for Materials Science P-02 Excitonic Transitions in Semiconductor Quantum Rings, T. Kuroda, T. Mano, T. Ochiai, K. Sakoda, G. Kido and N. Koguchi, National Institute for Materials Science P-03 The Growth and Optical Study of Self-Assembled, Laterally Aligned GaAs/Al0.27Ga0.73As Quantum Dot Molecules, M. Yamagiwa(1), T. Mano(1), T. Kuroda(1), T. Tateno, K. Sakoda(1), G. Kido(1), N. Koguchi(1) and F. Minami(2), (1)National Institute for Materials Science, (2)Tokyo Institute of Technology P-04 Fabrication of metallic nanowires for self-assembled InAs quantum ring structure and its transport properties, T. Noda, K. Mitsuishi, M. Yamagiwa, M. Kawabe, T. Mano, K. Furuya and N. Koguchi, National Institute for Materials Science P-05 A New Process for Site-controlled Quantum Dots and Improvement of Optical Property, J. S. Kim(1)(2), M. Kawabe(2), N. Koguchi(2), D.-K. Ko(1) and J. Lee(1), (1)Advanced Photonics Research Institute, Gwangju Institute of Science and Technology, (2)National Institute for Materials Science P-06 Rabi oscillation of an exciton in a GaAs single quantum dot, K. Kuroda(1), T. Kuroda(1) (2), K. Sakoda(1)(3), N. Koguchi(1) and G. Kido(1), (1)National Institute for Materials Science, (2)PRESTO, Japan Science and Technology Agency (JST), (3)Graduate School of Pure and Applied Sciences, University of Tsukuba P-07 Excitonic and biexcitonic decoherence in self-assembled GaAs quantum dots, K. Kuroda(1), T. Kuroda(1)(2), K. Sakoda(1)(3), N. Koguchi(1) and G. Kido(1), (1)National Institute for Materials Science, (2) PRESTO, Japan Science and Technology Agency (JST), (3) Graduate School of Pure and Applied Sciences, University of Tsukuba P-08 High-Quality InAs/InP Self-Assembled Quantum Dots Formed by Metalorganic Chemical Vapor deposition, Y. Sakuma(1), M. Takeguchi(1), K. Takemoto(2), S. Hirose(2), T. Usuki(2) and N. Yokoyama(2), (1)National Institute for Materials Science, (2)Fujitsu Laboratories Ltd. P-09 Nano-dot fabrication using electron-beam induced deposition combined with low energy ion milling, K. Mitsuishi(1), M. Shimojo(2), M. Tanaka(1), K. Furuya(1), (1)National Institute for Materials Science, (2)Advanced Science Research Laboratory, Saitama Institute of Technology P-10 Anomalous quantum Hall effect induced by nearby quantum dots, K. Takehana(1), T. Takamasu(1), G. Kido(1), M. Henini(2) and L. Eaves(2), (1)National Institute for Materials Science, (2)University of Nottingham P-11 Study of Thin Film Systems Using First Principles Approach, M. Oshikiri, National Institute for Materials Science P-12 Magneto-optical studies for 2D electron systems in diluted magnetic semiconductors, Y. Imanaka, National Institute for Materials Science P-13 Polarization Observation in Guide-collection-mode Near-field Scanning Optical Microscopy, T. Mitsui, K. Sakoda and G. Kido, National Institute for Materials Science P-14 Optical Waveguides Self-Assembled from Organic Dye Molecules, K. Takazawa, Tsukuba Magnet Laboratory, National Institute for Materials Science P-15 Processing of photo-resist by using low-vacuum scanning electron microscope, K. Hiraishi, T. Sekiguchi and M. Takase, Nanomaterials Laboratory, National Institute for Materials Science P-16 Accelerating voltage dependence of cathodoluminescence spectra of ZnO nanoparticles, X. L. Yuan, T. Sekiguchi and N. Ohashi, Nanomaterials Laboratory, National Institute for Materials Science P-17 Observation of leakage sites in a HfSiON gate dielectric of a MOSFET device by electron-beam-induced current method, J. Chen, T. Sekiguchi, N. Fukata and T. Chikyow, Nanomaterials Laboratory, National Institute for Materials Science P-18 Enhancement of Photoluminescence of Er Ion by the Formation and Hydrogenation of Si Nanocrystallites in Er-doped SiO2, N. Fukata(2)(1),H. Morihiro(1), M. Mitome(2), Y. Bando(2) and K. Murakami(1), (1)Institute of Applied Physics & Special Research Project on Nanoscience, University of Tsukuba, (2)National Institute for Materials Science P-19 Fabrication of GaN film by Molecular Beam Epitaxy for InN growth, Y.Z. Yao, T. Sekiguchi, Y. Sakuma, N.Ohashi, National Institute for Materials Science P-20 Spontaneous emission from two-level atom in bi-sphere micro-cavity, T. Ochiai, J. Inoue and K. Sakoda, Nanomaterials Laboratory, National Institute for Materials Science P-21 90-Degree Light Scattering by the Eigenmodes of the Menger Sponge Fractal, K. Sakoda, Nanomaterials Laboratory, National Institute for Materials Science & Graduate School of Pure and Applied Sciences, University of Tsukuba P-22 Investigation of the superluminal effect in photonic crystals, Zs. Szab_(1), R. Szip_cs(2), Gy. K_d_r(3), (1)National Institute for Materials Science, (2)Research Institute for Solid State Physics and Optics, Budapest, HUNGARY, (3)Research Institute for Technical Physics and Material Sciences, Budapest, HUNGARY P-23 On emission spectrum from a microcavity-quantum dot system, J. Inoue, T. Ochiai and K. Sakoda, National Institute for Materials Science P-24 Design of planar lens grating for vertical coupling on 2D photonic crystal slab waveguide, A. Mizutani(1), F. Laere(2), R. Baets(2), N. Ozaki(1), Y. Watanabe(1), Y. Takata(1), Y. Sugimoto(1) (3), N. Ikeda(3), K. Asakawa(1), (1)University of Tsukuba, (2)Ghent University, Gent 9000, Belgium, (3)National Institute of Advanced Industrial Science and Technology (AIST), P-25 Site-Control of InAs Quantum Dot Formation using Nano-Jet Probe Method, S. Ohkouchi(1), Y. Sugimoto(2)(3), N. Ozaki(2), H. Ishikawa(3) and K. Asakawa(2), (1)Fundamental and Environmental Research Laboratories, NEC Corp., (2)TARA Center, University of Tsukuba, (3)Ultrafast Photonic Devices Laboratory, AIST P-26 Topology optimization for two-dimensional photonic crystal waveguides with wide and flat bandwidths in ultra-fast all-optical switch (PC-SMZ), Y. Watanabe(1), Y. Sugimoto(1)(2), N. Ikeda(2), N. Ozaki(1), A. Mizutani(1), Y. Takata(1), J. S. Jensen(3), O. Sigmund(3), P. I. Borel(3) M. Kristensen(4) and K. Asakawa(1), (1)University of Tsukuba, (2)National Institute of Advanced Industrial Science and Technology, (3)Technical University of Denmark, (4)Aarhus University P-27 Improvement of transmission characteristics by hetero-2D photonic crystal slab waveguides with different group velocities, N. Ozaki(1), Y. Takata(1), Y. Watanabe(1), Y. Ikeda(2), A. Mizutani(1), Y. Sugimoto(1)(2) and K. Asakawa(1), (1)University of Tsukuba, (2)National Institute of Advanced Industrial Science and Technology (AIST) P-28 Quantum Kinetics of Exciton-Folded Acoustic Phonon in GaAs Multiple Quantum Wells, Y. Ogawa, A. Iwamatsu and F. Minami, Department of Physics, Tokyo Institute of Technology P-29 Decoherence suppression of excitons in GaSe using three successive femtosecond optical pulses, T. Kishimoto(1), A. Hasegawa(2), Y. Mitsumori(3), J. Ishi-Hayase(2), M. Sasaki(2) and F. Minami(1), (1)Department of Physics, Tokyo Institute of Technology, (2)National Institute of Information and Communications Technology, (3)Research Institute of Electrical Communication, Tohoku University P-30 NIMS Micromanipulation Facility, H. T. Miyazaki and T. Kasaya, Materials Engineering Laboratory, National Institute for Materials Science P-31 Nanosheet Plasmon Cavities. I. ― A Novel Architecture for Giant Field Enhancement ―, H. T. Miyazaki(1) and Y. Kurokawa(2), (1)Materials Engineering Laboratory, National Institute for Materials Science, (2)International Center for Young Scientists, National Institute for Materials Science P-32 Chiral Photonic Band-Gap Liquid Crystal Lasers, S. Furumi, National Institute for Materials Science P-33 Soft opal film with tunable stop band and its sensing applications, H. Fudouzi, National Institute for Materials Science P-34 Nanosheet Plasmon Cavities. II. - Confining Light into 0.001mm3 Volume-, Y. Kurokawa(1) and H. T. Miyazaki(2), (1)International Center for Young Scientists, National Institute for Materials Science, (2)Materials Engineering Laboratory, National Institute for Materials Science P-35 Colloidal Photonic Crystal Films with a Large Single Domain, T. Kanai, T. Sawada, A. Toyotama and K. Kitamura, National Institute for Materials Science