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, nanofabrication, and computational electromagnetism. Strong coding (Python /MATLAB) and experimental aptitude is desirable.
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on aluminium and other light-alloy substrate systems, the developed tools will be widely deployable to any material system undergoing electromagnetic processing. The development of these theoretical tools and
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modelling tools (CST or HFSS) - Fabricate and test for optimal electromagnetic performance, such as bandwidth, return loss, insertion loss and power-handling. - Develop and characterize new bonding/alignment
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of investigation include electromagnetic and light-driven heating techniques, and the influence of materials formulation and fibre architectures on process control, heating efficiency, and final material properties
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unison. Power efficiency and reliability are key to the performance and uptake of these new devices. The electromagnetic fields created by the module are important in device performance device. New ways
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flexibility. Aim This PhD project aims to explore and optimise new electric machine topologies that go beyond conventional 2D radial designs. The candidate will investigate innovative electromagnetic
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radial designs. The candidate will investigate innovative electromagnetic configurations that leverage 3D flux paths to achieve higher power and torque density without compromising efficiency. Key
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EPSRC Doctoral Landscape Award: Embedded power electronics converters design for future electric vehicles Applicants are invited for a 4-year EPSRC Doctoral Landscape Award PhD programme, co
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EPSRC Doctoral Landscape Award: Embedded power electronics converters design for future electric vehicles Applicants are invited for a 4-year EPSRC Doctoral Landscape Award PhD programme, co
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of realising an optical-pump TeraHertz-probe polarisation-resolved near-field microscope, this PhD research programme will look at combining spintronic THz emitters and near-field photoconductive probes. The PhD