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School graduates over a thousand students who are ready to take on great ambitions and challenges. For more details, please view: https://www.ntu.edu.sg/eee Electromagnetic Effects Research Laboratory
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-based modelling and design of microwave and RF devices. Perform electromagnetic simulation, design, fabrication, and experimental validation of microwave and RF components. Develop physics-assisted AI/ML
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) who is highly skilled in and deeply passionate about computational electromagnetism and mathematical physics/engineering. The SRF should have strong background in computational methods for solving
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Center for Devices and Radiological Health (CDRH) | Southern Md Facility, Maryland | United States | 3 days ago
Electromagnetic and Electrical Interactions regulatory science program conducts research to address the safe use of electrical energy and non-ionizing electromagnetic energy in medical devices. This program
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electromagnetic simulations. - Strong communication skills and ability to work independently and collaboratively. We regret to inform you that only shortlisted candidates will be notified. Hiring Institution: NTU
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for light–matter interaction in hyperuniform disordered plasmonic structures, including electromagnetic modelling, optimisation of metal–dielectric–metal resonators, and physics-informed machine-learning
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for light–matter interaction in hyperuniform disordered plasmonic structures, including electromagnetic modelling, optimisation of metal–dielectric–metal resonators, and physics-informed machine-learning
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the next generation of electromagnetic systems and work at one of the leading institutions in the UK in microwave and communication technology, the Centre for Wireless Innovation – Queen’s University Belfast
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the next generation of electromagnetic systems and work at one of the leading institutions in the UK in microwave and communication technology, the Centre for Wireless Innovation – Queen’s University Belfast
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The post The Faculty wishes to recruit a Postdoctoral Research Fellow to participate in a 3-year research project into shape-morphing electromagnetic metamaterials and devices. This EPSRC funded