Abstract Born in Kure City, Hiroshima Prefecture in 1959. In 1988, he received his PhD from Hiroshima University for studying the grain boundary structure of alloys using electron microscopy. Area of expertise is synchrotron radiation structure science. In 1995, succeeded in determining the structure of metal-encapsulated fullerenes for the first time in the world.After working asan associate professor at Nagoya University, moved to a group leader and division head of the Japan Synchrotron Radiation Research Center (JASRI/SPring-8), a senior researcher and deputy director of the RIKEN Synchrotron Radiation Research Center, assumed current position in 2015. Based on the industry-academia collaboration scheme “Coalition Concept”, ushering the plan for NanoTerasu at the new campus of Tohoku University Aobayama new campus..28It is no exaggeration to say that the emergence of the low-emittance 3GeV synchrotron radiation(SR) facility, NanoTerasu Light Source is being a transformative placemaking in the R&D of materials science. One of the major light source performance of the low-emittance ring, coherence, especially ought to bring be a game changer of facility application. The combination of coherent imaging & X-ray absorption spectroscopy will revolutionize nano-level visualization of materials’ function relating to heterogeneous and complex structure. Furthermore, the visualization of NanoTerasu, combined with a computer simulation and/or a data science, is expected to become one of the powerful engines that accelerates Digital Transformation in materials development research, and consequently to play an important role in the problem-solving oriented science & technology. To reinforce this, it is more effective not only to develop advanced measurement technology, but also to have a needs-pull system in which industry and academia bring issues to the facility, and an organic system that brings together researchers from various fields such as data science, AI science, and manufacturing to take on the challenge of solving problems together. NanoTerasu is, therefore, entrusted with a mission to involve industrial sector and academia from the planning stage, contribute to science, industrial technologies, and concretize the formation of a research complex. Therefore, a new facility development approach called “Public-Private Regional Partnership” has been introduced. In addition to the nationally promoted ”Public Shared Use,“ a new utilization scheme called “Coalition Use” is being introduced. Industries, universities, and local governments that contribute construction funds will have priority access. “Coalition” system shall make NanoTerasu a place to take in new seeds from unexplored areas of industry, solve them with science seeds and create new challenges. So far, more than 150 companies, universities, and national research institutes have become members of the coalition through investment, and on April 9th 2024, the coalition system utilization was initiated.The current status and prospects of facility application at NanoTerasu will be described.Professor, Tohoku University Building a New Range of Synchrotron Radiation FacilityMasaki Takata Invited Talk: S1-5
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