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sensors systems, which involves the characterisation and optimisation of near- and mid-infrared lasers, paired with work on the optical and mechanical packaging of these sources. Furthermore, DC7 will work
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magnetic components of the dynamo are to be simulated numerically. Your profile: Potential candidates (m/w/div) should hold a Masters or Diploma degree in Materials Science, Mechanical Engineering
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research on biomedical sensor applications (biomedical sensor interfaces/ integrated mechanical strain sensors) analog/Mixed-Signal Integrated Circuit Design (CMOS, low-power, low-noise design) publication
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biological physicists who ask how physical mechanisms shape functional biological patterns. We combine statistical physics, nonlinear dynamics, mathematical modeling and data-driven simulation with physics
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and motivated theoretical biological physicists who ask how physical mechanisms shape functional biological patterns. We combine statistical physics, nonlinear dynamics, mathematical modeling and data
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, with a focus on gene regulation and epigenomic control mechanisms in mammalian development and disease. The Hasso Plattner Institute (HPI) is Germany’s center of excellence for digital engineering. The
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methods, thermodynamics of solvation shells, constant-pH simulation methods, Markovian thermodynamics, as well as functional mechanisms of the ribosome, fatty acid synthase, CRISPR/Cas, or intrinsically
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Max Planck Institute for Multidisciplinary Sciences, Göttingen | Gottingen, Niedersachsen | Germany | 2 months ago
are variational free energy methods, thermodynamics of solvation shells, constant-pH simulation methods, Markovian thermodynamics, as well as functional mechanisms of the ribosome, fatty acid synthase, CRISPR/Cas
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regulatory networks, cell behaviour, and morphology during this process. By examining species across evolutionary scales, we aim to uncover the mechanisms underlying morphological evolution and the general
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group »Translational Neuroinflammation« focuses on understanding pathological and immunological mechanisms in the development and progression of demyelinating diseases of the central nervous system