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., gestures, facial expressions, speech) and physiological signals (e.g., heart rate, respiration, EEG). The work requires knowledge of signal processing techniques, including image and audio processing, as
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National Institutes of Natural Sciences, National Institute for Physiological Sciences | Japan | about 1 month ago
imaging through the use of novel probes and optical technologies. The Specially Appointed Assistant Professor recruited here will participate in the Grant-in-Aid for Scientific Research "Advanced Bioimaging
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National Institutes of Natural Sciences, National Institute for Physiological Sciences | Japan | about 2 months ago
optical imaging; In vitro electrophysiology; Large-scale data analysis; Mathematical modeling. We prioritize candidates who are already proficient and have abundant experience in some of these technologies
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. By synchronizing functionality and nanostructure in response to time and environmental changes, this research opens a new paradigm in materials science—enabling materials that behave as if time itself
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] * Background of the recruitment and description of the project Imaging with octave-bandwidth coherent x-rays - towards atomic spatio-temporal resolution [Work content and job description] Research on coherent
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also lead the development of precise neutron imaging techniques at the world best precision by using particle tracking detectors. Keywords: Nuclear experiment, Hadron experiment, particle detectors
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strong-correlation systems by means of atomic resolution electron microscopy. We use various microscopy techniques, such as electron tomography, in-situ imaging under electric bias, differential phase
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responsible for development of detectors for measuring beta rays, gamma rays, and neutrons as well as the development of computational codes for analyzing the obtained data. The job description may be changed
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of multicellular systems. Our research takes a multifaceted approach, combining imaging of organoids and animal embryos, mechanical measurements using atomic force microscopy (AFM) and other in-house technologies
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employ cutting-edge approaches such as high-throughput live-cell imaging, genome-wide genetic screens, precise gene editing, and biochemical reconstitution to uncover new mechanistic principles. Our unit