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of high-temperature materials, including various strain measurement methods Comprehensive knowledge and practical experience in microstructural characterization using light and electron microscopy (SEM, EBSD) Knowledge
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institutions, and a research and development provider for numerous companies throughout the world. The INM is a member of the Leibniz Association and has about 250 employees. The Innovative Electron Microscopy
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Fritz Haber Institute of the Max Planck Society, Berlin | Berlin, Berlin | Germany | about 1 month ago
of elementary processes in solids and at surfaces, in particular, ultrafast dynamics of electronic and lattice excitations, electron-phonon coupling, interfacial charge transfer, spin dynamics, as well as spectro
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that seamlessly integrates visible-light and mid‑infrared microscopy with cutting-edge quantum techniques. This includes the full workflow from conceptual design and instrument development to performance
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the excellence cluster Your profile PhD in physics or in a related discipline experience in phase contrast or coherent X-ray imaging advanced programming skills in a high-level computer language (Python or related
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at the organismal level. We offer a stimulating and international research environment, access to state-of-the-art microscopy, proteomics, and behavioral platforms, and integration into the vibrant Berlin
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advanced programming skills in a high-level computer language (Python or related) hands-on experience with instrumentation development excellent oral and written English skills collaborative mindset Skills
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to the translation of the four core optogenetic approaches to restore i) hearing and ii) vision and explore the potential of optogenetics for iii) gastric pacemaking and iv) brain-computer interfaces. These four teams
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Experience with automated live-cell / time-lapse fluorescence microscopy or imaging and image analysis Excellent communication skills in English, both written and spoken Ability to work independently and
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quantitative live-cell imaging to probe and model these processes. By combining stem cell biology with cutting-edge microscopy and physical concepts, we aim to establish a predictive framework for tissue self