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development of a custom ground-based platform for efficient and accurate collection of sensor data. This platform will support the integration of machine learning models for real-time decision-making, enabling
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applicant must have (or be close to obtaining) a relevant PhD in Fluid Mechanics from an Engineering, Mathematics or Physics Department, a strong background in theoretical and computational fluid mechanics
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will be actively involved in the design and development of a custom ground-based platform for efficient and accurate collection of sensor data. This platform will support the integration of machine
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electric machines•Nanomaterials for next-generation electronic and photonic nanodevices•Oxide materials for MEMS piezoelectric and multiferroic sensors/actuators•Solid-state devices such as solar cells
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you have an MSc degree in a relevant field (e.g. applied earth science, engineering, thermal energy storage, etc.) and experience in using high performance code in Python (libraries : pandas, xarray
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, and optimise and de-risk operations. Job requirements Do you have an MSc degree in a relevant field (e.g. applied earth science, engineering, thermal energy storage, etc.) and experience in using high
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separation in relation to the environmental challenges of mining. • Investigate leaching and extraction mechanisms in these unconventional media (complexation, structuring, kinetics, thermodynamics). • Explore
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that is crucial to the understanding of fundamental biological mechanisms. It is supported by 12 state-of-the-art platforms. As a joint research unit (CEA-CNRS-UGA), the IBS is composed of 20 research
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scientific advice of the highest quality within building design and processes, building construction and safety, building energy and services, solid mechanics, fluid mechanics, materials technology
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Research Center (CRC) 1772 is to explore and harness previously inaccessible collective phenomena and ground states in heterostructures of molecules and two-dimensional materials. Two-dimensional (2D