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out during the ESA mission ACES, which will begin in 2025, after the launch of the space hardware in early 2025. This mission will operate a Cs cold atomic clock and optical and microwave transponders
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supports European Engineering & Consultancy Ltd. strategic roadmap in the development of a miniature microwave-based RF communication system. A key technology is the crystal oscillator, which is sensitive
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optimised in batch are not readily translatable to scaled up processing. We have identified that microwave heating and flow chemistry are able to provide distinct processing advantages in the synthesis
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passive radar to derive forest properties Research subject: Technology Description Microwaves, commonly utilized for radar measurements, interact directly with the underlying material properties
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A position exists, for a Research Assistant/Associate in the Department of Engineering, to work on Microwave Photonics. The post holder will be located in West Cambridge, Cambridgeshire, UK. The key
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-optical frequency division scheme. The successful candidate requires a deep knowledge of optical microcomb and integrated photonis as well as strong grasp of RF technology and microwave oscillators
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comfortable with this project: cyber security, networking, cyber-physical systems, control engineering, antennas, radiofrequency (RF), microwave engineering, and/or space engineering. Programming skills and/or
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Engineering, Mathematics, and Computer Science (EEMCS). MS3 specializes in research and education at the cutting edge of microwave systems, focusing on both fundamental and applied research. Leveraging
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experimental systems for cryogenic measurements Development of a microwave quantum control & readout stack Development of Python code to operate quantum systems Detailed experimental characterization
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-mechanical technologies and the demand for high-quality oscillators in quantum technology have driven this progress. Nanomechanical engineering of so-called phononic crystals has allowed to manipulate