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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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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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the information on the amplitude and phase of so-called “spin-waves”, magnetic exci-tations, with GHz frequencies, and micron wavelengths. They can be excited by RF antennas, or more recently by surface acoustic
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harness unprecedented flexibility in the distributed control of the antennas and radio-frequency (RF) systems. We propose a unique approach for strengthening the resilience of sense constellations and
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levitation of nanoparticles in ultrahigh vacuum. Project background Optical levitation in vacuum is an emerging branch of optomechanics exploiting lasers, optical cavities and RF traps for trapping and
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architecture and RF circuits that enable backscattering-based wireless biosensing using organic electrochemical transistors as sensing platforms. The researcher will be responsible for: o Architectural study of
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, this PhD project explores radio frequency (RF) technology as a novel processing method for the insect industry. RF technology is a dielectric, volumetric heating method that uses electromagnetic waves
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behaves in extreme conditions? Passionate about laser interactions, plasma physics, RF technologies or materials science? This fully funded PhD opportunity at Cranfield University, in collaboration with
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, electromagnetics, or RF engineering. Ability to take initiative and drive innovative research. Proven skills in scientific writing and publication. Experience with Xilinx FPGAs, microcontrollers, or RF circuit
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: A minimum of an upper second-class UK honours degree (or international equivalent) in a relevant science or engineering field. A passion for applied research in areas such as laser interactions, RF