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resistivity models derived from a recently acquired coincident wide-angle seismic, controlled source electromagnetic (CSEM) and magnetotelluric (MT) dataset. We are particularly looking for someone with skills
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We are seeking a Research Fellow to lead research on advanced Rydberg atom–based quantum sensing platforms at CQT, NTU. The role involves experimental work on electromagnetic signature detection
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materials characterization tools; computational multi-physics/electromagnetics modelling and eigenmode analysis for photonic crystals; terahertz far-field spectra measurements or near-field scanning
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up expertise on Rydberg electromagnetically induced transparency (EIT) in room-temperature vapour cells. This project will combine our optical tweezer capabilities with Rydberg EIT to study how
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neurotechnological tools by integrating computational and experimental approaches to understand how nanoscale materials and electromagnetic interactions affect brain function. The PhD project will focus on biophysical
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be advantageous, but not essential, to have recent experience in one or more of: the use of micro/nanofabrication and materials characterization tools; computational multi-physics/electromagnetics
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characterisation techniques. We are looking for a candidate with strong foundations in composite materials and a strong interest in electromagnetics and other multifunctional properties of materials to drive
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experimental approaches to understand how nanoscale materials and electromagnetic interactions affect brain function. The PhD project will focus on biophysical modeling of electrical and magnetic brain signals
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. Facilities will be provided including lab space, computers for imaging analysis, electromagnetic loading machine, nanoindentation, micro-computed tomography, and tools for histology of bone-implant interface
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member of a team working on electrical machines, electromagnetic design, magnetic and insulation materials, thermal management, control, construction and testing of high-performance electrical machines. We