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Field
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and 3D electromagnetic simulations is considered a significant advantage. Your workplace You will be working at the Division of Electronics and Computer Engineering (ELDA), which conducts teaching and
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schema maritime innovation projects (subsidieregeling maritieme innovatieprojecten). The project leader is Advanced Electromagnetics BV. We also collaborate with Allseas, who are developping an SMR
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Atomic Drive. The MeGa-Drive project is funded by the subsidy schema maritime innovation projects (subsidieregeling maritieme innovatieprojecten). The project leader is Advanced Electromagnetics BV. We
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: • Develop efficient numerical methods and strategies to solve the electromagnetic and heat transfer problem in induction welding. • Develop constitutive models that capture the temperature
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optical setup construction. They will make use of commercial simulation software to test electromagnetic designs, algorithmic coding to design metamaterials, fabrication techniques to produce
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resolution of the electromagnetic calorimeter. The canonical mode we'd like to explore in this Ph.D. program is the decay $B^0 \to \pi^0 \pi^0 $ featuring a subsequent Dalitz decay $\pi^0 \to e^+e^- \gamma
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engineering, applied mathematics, electrical engineering, and computer science. Desirable skills/interests: Signal processing, wireless communication, machine learning, electromagnetic propagation. Objectives
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Science, Applied Mathematics, or Physics with an electromagnetic background Strong theoretical knowledge in some of the following areas: Radar Systems and Signal Processing Optimization methodologies Machine
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regime, they must be isolated from their environment. One powerful approach is to levitate them in vacuum with electromagnetic fields, offering unrivaled dynamic control and a broad sensor mass range, from
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electromagnetic fields, offering unrivaled dynamic control and a broad sensor mass range, from femtograms to nanograms. In recent years, we made major progress in controlling the motion of such levitated systems