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of cardiac tissue is rapidly progressing field, continually striving to create functional tissue models that closely replicate the structure and organisation of natural cardiac tissues. Bioprinting, in
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? To this end, our existing high-fidelity fluid-structure interaction solver (prediction of turbulent flow structures and fluid-structure interaction) needs to be combined with sophisticated blood damage models
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blade aerodynamics, gust interactions, and fluid-structure interactions. The research focuses on unfolding the origin and development of unsteady flow separation and vortex formation. The lab has built a
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Environment and other University structures are encouraged. The University of Bern supports the Better Science Initiative, is an equal opportunity em-ployer and has set the aim to increase the number of women
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and data structures, with demonstrated accomplishments in the context of astrophysical and/or space-science data processing. The successful candidate will hold an MSc or greater degree in
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predict protein-protein complementarity, design artificial protein binders, investigate the effects of mutations on protein structure and function, and apply protein representation learning to uncover
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with project management. Support early-stage concept formulation within the π Innovation Hub, contributing to feasibility studies, prototyping, and transition of successful concepts into structured
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limited to, ultrafast optical spectroscopy, structural characterization using X-rays and electrons (or other particles) with high spatial and temporal resolution, nuclear magnetic resonance, Mössbauer