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project is to develop the next generation of solar jet propagation models from the lower atmosphere to the inner heliosphere, and to allow a direct comparison with real in-situ data of the early solar wind
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may hinder critical historical reflection. Many studies show that effective immersive experiences—whether in training or entertainment—require properties such as presence, immersion, engagement, flow
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turbulent plasmas and by phenomenological models. The overarching goal of this ambitious programme is to describe the acceleration process across length scales, in the turbulent flow, in the inner jet and in
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parameter space: amount of magnetic torsion in the jets, intensity and distribution of the magnetic field, properties of the surrounding plasma, etc. A more realistic solar wind model will be implemented
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disruptive technologies in the field of separation chemistry that can be applied to the entire current and future nuclear cycle, respond to the challenges of mining resource exploitation, and be extended
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consortium composed of specialists in signal processing (i3S Laboratory), computational cardiac modeling (Karlsruhe Institute of Technology, Germany) and interventional cardiology (Nice Pasteur University
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structures. To overcome these problems, aerial vehicles (a.k.a. drones) are an effective solution. Unfortunately, drones can currently transport a limited payload and the complexity of most tasks involving
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degree of complementarity. Exchanges and stays in the partner laboratories are planned. Scientific context For fundamental thermal science dedicated to nanomaterials, there is currently no mature solution