Measurement Group: Capturing Self-Organization Systems

[Group members]

Group leader Ishiwata Shin'ichi Division of Integrative Bioscience and Biomedical Engineering, Graduate School of Science and Engineering Sub-leader Takeuchi Atsushi Division of Nano-Science and Nano-Engineering, Graduate School of Science and Engineering Washio Masakazu Division of Pure and Applied physics, Graduate School of Science and Engineering Komatsu Shinichi Division of Pure and Applied physics, Graduate School of Science and Engineering Ukai Kazuhiko Division of Pure and Applied physics, Graduate School of Science and Engineering Nakajima Hirochika Division of Pure and Applied physics, Graduate School of Science and Engineering Daishido Tsuneaki Division of Pure and Applied physics, Graduate School of Science and Engineering Hasebe Nobuyuki Division of Pure and Applied physics, Graduate School of Science and Engineering Morishima Shigeo Division of Pure and Applied physics, Graduate School of Science and Engineering Kinoshita Kazuhiko Division of Pure and Applied physics, Graduate School of Science and Engineering Tanabe Yuka Division of Pure and Applied physics, Graduate School of Science and Engineering

Research goals

Our goals are the precise measurements of spatiotemporal patterns of self-organizing systems using light, radiowaves and corpuscular beams; and understanding of dynamics and mechanism of functional expression by analyzing measurement results.

Research themes (collaborating teaching staff in parentheses)

Ishiwata Shin’ichi *Single molecule design of functional proteins and system construction (Funatsu,Wako,Aizawa,Wako,Aizawa,Tasaki,Yamazaki) Takeuchi Atsushi *Elucidation of the physical properties of self-organized quantum dots and their application to quantum algorithms (Tasaki,Kurihara) Washio Masakazu *Development of non-destructive precise measurements with high-energy particle beams (Hasebe, Kikuchi) *Advancing laser-electron interaction using a plasma channel (Nakajima,Hasebe,Hama) Komatsu Shinichi *Self-organized reconstitution of the physical information space of multidimensional light (Ukai,Uesu,Nakajima,Tsutsumi,Daishido,Hashimoto) Ukai Kazuhiko *Image processing and human visual information processing (Komatsu,Hisamura) Nakajima Hirochika *Comparison of linear and non-linear-optical coefficients derived from first-principles calculation with measured values (Uesu, Katsufuji) *Creation of 3D-VR (virtual reality) that enables representative sensation of electron or photon state in a crystal lattice (including polymers) (Ukai, Hashimoto) *Creation of devices equipped with monolithic thermoelectric conversion functions (Terasaki) Daishido Tsuneaki *Observation of a pulsar and transient wave sources(Maeda, Ohba, Komatsu, Yamada, Takano,Kurihara) *Identification of EGRET gamma-ray sources and observational determination of cosmological parameters by SZ effects (Maeda, Ohba, Nakazato, Komatsu,Tasaki) *Fundamental research on a spherical mirror array with 256 elements, including development of complex mixer array, digital light transmission and FPGA/LSI, and a signal processing of time and space at the Nyquist rate (Komatsu,Nakajima) Hasebe Nobuyuki *Investigating the chemical evolution of cosmic ray sources and galaxies using r-process elements (Takano, Maeda, Daishido, Kikuchi) *High-energy space physics using MeV detected by Xe-TPC (Washio,Kikuchi) *Electron transport and emission mechanisms of the noble gas xenon (Washio,Kikuchi) Morishima Shigeo *3D imaging for biosystem  (Ukai, Nakajima) *Degital signal processings for biosystem  (Nakajima) Kinoshita Kazuhiko *Single molecule physiology  (Ishiwata, Wako, Aizawa, Tasaki, Yamazaki, Tabe, Takano) Tanabe Yuka *High precision measurement of Langmuir film