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capabilities of standard MRI scanners and building dedicated coils, RF electronics, and associated control circuits. Responsibilities and qualifications The aim of this PhD project is to study and develop
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that remain undetectable. By developing an affordable and universal RF broadband transmit coil, we can unlock the true potential of MRI. Responsibilities and qualifications Your overall focus will be
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appropriate micro and nanofabrication techniques for high quality quantum device realisation, F3 Experience in cryogenic DC/RF spectroscopy. Closing date: 30 April 2025 Terms and Conditions Salary will be
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the development of planar superconducting devices; Experience in microfabrication of superconducting circuits; Experience in cryogenic RF measurements with dilution refrigerators; Excellent English, written and
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also in laser physics, optics, rf-electronics, low-noise electronics, programming, ultra-high vacuum design, and for this topic precision measurements and metrology. These diverse skills are all assets
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nuclei that remain undetectable. By developing an affordable and universal RF broadband transmit coil, we can unlock the true potential of MRI. Responsibilities and qualifications Your overall focus will
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surpassing that of CMOS/SiGe BiCMOS based circuits. The position is a part of the Smart Networks and Services Joint Undertaking project “X Transceivers & RF front-ends made in Europe's Microelectronics light
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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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Research (RF-CDR), with particular encouragement to advance high-quality, cutting-edge experimental research. Accordingly, demonstrate an outstanding capacity to generate original research questions and
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resonance, spin-Hamiltonians and time-dependent perturbations. Our experiments require hand-on experimental use of optics (e.g. lasers, detectors, lenses, etc.), microwave, RF and DC electronics, magnetic