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costly to deploy at scale. This leaves a critical capability gap in wildfire early detection. This PhD will explore a novel solution: using ambient Radio Frequency (RF) signals as passive environmental
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the fundamental electromagnetic mechanisms and understand how anomalous effects may be exploited to design compact and low-cost antennas in RF/Microwave bands. The work will entail fundamental theoretical studies
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implementation of an automated test stand for superconducting cavities of HELIAC, which are currently under fabrication. The work will include aspects of RF design, cryogenic integration, and test automation, in
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are currently under fabrication. The work will include aspects of RF design, cryogenic integration, and test automation, in close collaboration with experts from the RF, cryogenics, and control systems groups
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low-dimensional systems , Quantum Transport in topological phases , Radiation Therapy Simulation , RF Engineering , Scattering amplitudes , simulation-based inference , single- and multicomponent
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, Digital signal Processing (punctuation: 25) Item 03: Experience in: RF design for satellite comm, FPGA programming in VHDL., PCB design for RF (punctuation: 25) Item 04: Personal interview. The interview
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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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/2020 until 02/2024. (https://www.tu-dresden.de/ilr/rfs ) Task description for your Individual Research Project (IRP) Problem Definition: The influence of emissions caused by ablation/demise
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optimization and resource allocation schemes and algorithms for link and network optimization with hybrid fibre-FSO-RF communications. You will further augment software defined networking controllers
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(DC/RF/HiPIMS), PLD, ALD, R2R deposition systems, SEM, TEM, XRD, XPS, Raman, EXAFS, ellipsometry and more. Supportive ecosystem for attracting major EU funding and building strong international