We clarify the functionality of various 2-dimensional activesites based on the microscopic structure to establish a new approach to surface science and solid state physics. Crystal Truncation Rod (CTR) scattering method, one of the surface x-ray diffraction techniques, is employed to this study.
[TARGET 1] Develop the time resolved CTR scattering method
To develop sub-nano sec (electron diffraction) or sub-milli sec (x-ray diffraction) -resolution CTR scattering camera.
[TARGET 2] Establish the structure-based surface/interface science
Establish an academic discipline that provides the microscopic basis of the surface/interface properties for various materials, including organic semiconductors, chemical reactions at surfaces, etc.
[TARGET 3] Develop an automated procedure for atomic resolution surface imaging
To contribute a wide range of science and industry, we develop an automated procedure of the atomic resolution surface imaging.
Members
| Principal Investigator |
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Yusuke WAKABAYASHI
Associate Professor, Division of Materials Physics, Graduate School of Engineering Science, Osaka University
Research Field : Solid state physics based on synchrotron diffraction technique
Comment : I'm getting interested in non-equilibrium states.
URL:http://www.crystal.mp.es.osaka-u.ac.jp/waka/index-e.html
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| Co-Investigator |
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Toshio TAKAHASHI
Researcher, Department of Physics, Tokyo Gakugei University
Research Field : Diffraction physics and Surface physics
Comment : Development and applications of surface x-ray
diffraction
URL:
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Tadashi ABUKAWA
Associate Professor, Institute of Multidisciplinary Research for Advanced Materials, Tohoku University
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Hiroo TAJIRI
Researcher, Research & Utilization Division, JASRI/ SPring-8
Research Field :X-ray Surface Crystallography
一言:
URL: |
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Tetsuro SHIRASAWA
Institute for Solid State Physics, The University of Tokyo,
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