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hybrid propulsion system a rugged miniaturised version of the high speed electronics needs to be developed with additional development of microwave Ka band RF transceivers. The associated real-time
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also a pioneer in in situ 3D ED studies, as will be important in this project. More about us at our webpage . Position You will design and fabricate lithographically etched sample supports and MEMS
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breakthroughs in the creation and manufacturing of complex micro-electronic Radio Frequency (RF) systems that enable The Netherlands to extend its leading position, both in a technological as well as an economic
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Vacancies PhD positions (3x) on RF/Microwave Gallium Nitride (GaN) MMIC design and test Key takeaways Gallium Nitride: covering the entire chain from device modelling and characterisation, MMIC
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Vacancies PhD position on the design and fabrication of MEMS drag force-based flow and fluid composition sensors Key takeaways In this project, we will combine well-known thermal flow sensing
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of dehydration using a low-power radio-frequency (RF) sensor. The research objectives include design optimization to improve wearability, robust data acquisition using machine learning and establishing correlation
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of front-end electronics and miniature RF antennas for chronic implantation. You will prototype and characterize the wireless link (power + sensing), design and optimize sensor-resonator coupling, and
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admission at the University of Adelaide, and who can demonstrate suitable experience in electrical engineering, physics, signal processing, or related fields. Experience with RF systems, antennas, or embedded
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, enabling early detection of damage. Renewable Energy: Rapid, optimized design of wind turbine blades and structures for greener energy. Microstructures: Accurate, efficient analysis of devices like MEMS
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bench (optical, electronic and mechanical) and multiphysics analysis using high-performance on-site instruments (optical spectrum analyzer, 3D intensity profile, wavefront, RF spectrum, field polarization