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scienceYears of Research Experience1 - 4 Additional Information Eligibility criteria - Processing and analysis of ambient noise seismic data; imaging and inversion techniques; mechanics and geophysics
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biology, bioinformatics, imaging and/or infectious models will be appreciated. Starting Date & Duration: This position is opened starting mid 2024 for a total of 3 years. Location: The Institut Pasteur
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of development and regeneration - Routine and state-of-the-art techniques for cell labelling, conventional and confocal imaging on live and fixed samples - Theoretical and practical work on the processes of (1
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an operational prototype Rydberg quantum processor based on optically trapped Rydberg atom qubits and leads the development of the next generation dual species Rydberg quantum computer with >400 fully addressable
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technology exploiting quantum principles, at the frontiers to chemistry, physics, materials science, and computing. CESQ hosts an operational prototype Rydberg quantum processor based on optically trapped
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polarization will be evaluated by imaging the polarization-resolved Fourrier plane. These optical characterizations will be carried out at CEMES on state-of-the-art time-resolved confocal microscopes
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in a variety of dynamic processing techniques; including friction-stir welding or electro-magnetic forming or pulse welding. Such extreme types of deformation usually trigger localization mechanisms
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to chemistry, physics, materials science, and computing. CESQ hosts an operational prototype Rydberg quantum processor based on optically trapped Rydberg atom qubits and leads the development of the next
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provide a complete picture of the process. Recent research has developed and utilized some of these methods, but there is a need for a better understanding of what is being measured and the reliability
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project or operation The “European infrastructure for Rydberg Quantum Computing (EuRyQa)” project is aimed at establishing Rydberg quantum processors as a leading platform for scalable quantum computing in