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fellowship in experimental quantum optics to contribute to the development of a new platform for quantum simulation and many-body physics based on neutral atom arrays coupled to nanophotonic waveguides
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lithium, cobalt, nickel, manganese, iron, aluminium, and phosphorus. The research will focus on developing a high-temperature recycling process to recover these elements, using reduction methods involving
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lithium, cobalt, nickel, manganese, iron, aluminium, and phosphorus. The research will focus on developing a high-temperature recycling process to recover these elements, using reduction methods involving
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enhancement, outdoor and all-weather operations, full flight-envelope exploitation, aerial physical interaction, collision resistance, etc. The specific research direction can be adjusted depending
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lithium, cobalt, nickel, manganese, iron, aluminium, and phosphorus. The research will focus on developing a high-temperature recycling process to recover these elements, using reduction methods involving
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emitters and detectors are still missing in this range, known as the THz gap. Existing devices are mostly based on semiconductors and have limited performances. The use of new physical mechanisms, not
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talented doctoral students to work closely with world-class research groups and benefit from the combined expertise and facilities offered at the two institutions, with a lead supervisor within each
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Curtin. Application process Please send your CV, academic transcripts and brief rationale why you want to join this research project via the HDR expression of interest form to the project lead researcher
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Atomic-Scale Materials Dynamics (ATLAS) group at DTU Nanolab has established state of the art methods for high resolution material characterization using electron microscopy and spectroscopy
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opportunity to work as part of a dedicated team within an ERC project “turbulence intermittency for cloud physics” (TITCHY), underwritten by UKRI, seeking to understand the importance of intermittent turbulent