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Field
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for airBORNe applications” project (https://newborn-project.eu/) and develop a real-time Multiphysics Digital Twin for such a system accelerating future electric propulsion system development. Motivation
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-space propulsion. The success of the project will enable the development of highly efficient devices and open a new research line on active control of space plasma thrusters. At the Plasmas and Space
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program, involving close collaborations with several French laboratories and NASA's Jet Propulsion Laboratory. Where to apply Website https://emploi.cnrs.fr/Candidat/Offre/UMR7326-ANAMEK-122/Candidater.aspx
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for demanding applications such as aerospace propulsion systems, where high strength, thermal stability, and reduced weight are essential. While LPBF enables the fabrication of complex and lightweight geometries
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are supported by high-quality infrastructure such as laboratory facilities for rocket propulsion, small satellites, asteroid engineering, and space avionics. Subject description Space systems includes systems
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subsequent sintering by field-assisted sintering techniques (FAST). Moreover, due to the increasing interests and demands in propulsion-system components, aerospace applications, parts of rocket engines, etc
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are rare events where the flow suddenly takes extreme states far from its normal state. Of particulars risks are potential extreme events involving carbon-free fuels in future sustainable propulsion
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are supported by high-quality infrastructure such as laboratory facilities for rocket propulsion, small satellites, asteroid engineering, and space avionics. Subject description Space systems includes systems
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compromising operational safety. The AI systems to be explored may include: AI-based weather-routing for determining optimal routes under changing conditions AI-based wind-assisted propulsion decision support
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program under the MARIE SKŁODOWSKA-CURIE grant agreement no 101227277. Research areas: DC3: Future solar-wind propulsion concepts Terms: The position is limited to 36 months