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characterizing devices for extreme radiation environments, including new materials and detector configurations. Hard X-ray and Gamma-ray imaging (Tadayuki Takahashi, Manabu Togawa) This project develops a hard X
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to fields like particle physics and cosmology. Research on nonlinear optical imaging systems and optical tweezers techniques for applications in soft, biological active matter systems. Computational
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phenomena through imaging of living cells and single-molecule imaging of proteins, and applied research involves cancer diagnosis and treatment. The educational program is deeply supported by the Nano Life
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collaborate across disciplines, including math, chemistry, biophysics, condensed matter physics, materials science, and others. Postdocs will actively contribute to the knotted chiral meta matter paradigm
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, including math, chemistry, biophysics, condensed matter physics, materials science, and others. Postdocs will actively contribute to the knotted chiral meta matter paradigm that probes the fundamental laws
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bioinformatics analysis of in vivo neural activity imaging and single-cell spatial omics. If your expertise lies beyond these areas yet you have a keen interest in our research focus, we encourage you to reach out
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) , WPI-SKCM² pioneers a new interdisciplinary research paradigm known as "knotted chiral meta matter" (KCM²), which cross-pollinates topology and chirality across disciplines and scales. While our work is
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Center Initiative (WPI) of the Japanese government, our mission at SKCM2 develops a new interdisciplinary research paradigm known as "knotted chiral meta matter" (KCM2). Our team of researchers cross
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Initiative (WPI) , our mission at SKCM2 develops a new interdisciplinary research paradigm known as "knotted chiral meta matter", as well as provides interdisciplinary training and international research and