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Field
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, biologging, and coding) to map and analyse complex burrow structures and their usage at our established field-site in South Africa. You will combine this with long-term behavioural and life-history data from
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Eberhard Karls University Tübingen | Bingen am Rhein, Rheinland Pfalz | Germany | about 11 hours ago
microphysiological systems with a particular focus on the development of human organ-on-chip (OoC) systems that integrate complex human tissues into engineered physiological environments featuring vasculature-like
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advanced mesoscopic crystal plasticity provide powerful predictive capabilities, they remain computationally expensive when applied to realistic microstructures and large-scale structural analyses. A key
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complex optical components [3,4]. Direct laser writing has enormous potential to address photonic integration challenges. Yet at present structures are slowly created one voxel at a time. Our project moves
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of drug discovery and structural biology. The research focuses on elucidating the complex structural architecture of essential regulatory proteins, including kinases, which play critical roles in
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harmonisation, and next generation research infrastructures. You will contribute to research projects enabling secure, interoperable, and scalable AI-driven use of clinical data for complex diseases such as
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Institut National des Sciences Appliquées de Lyon | Villeurbanne, Rhone Alpes | France | 11 days ago
introduces an important additional complexity: a strong fluid-structure coupling between the elastic pipe wall and the heavy internal fluid [6]. Depending on the frequency range and the circumferential modes
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advanced mesoscopic crystal plasticity provide powerful predictive capabilities, they remain computationally expensive when applied to realistic microstructures and large-scale structural analyses. A key
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the construction of 3D models of protein complexes inserted in membranes to quantuim chemistry calculations, including classical molecular dynamics simulations. The major points that will be under scrutiny during
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develop a digital twin of the PFA cure process, combining mechanistic modelling with neural‑network‑based prediction of complex behaviours such as void formation and brittleness. In parallel, you will