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Nonlinear eddy-current and hysteresis analysis Ultrafast 2D/3D modeling of electromagnetic fields Optimal design of electromagnetic systems Thermal management strategies for electrical actuation systems
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processes. Construct multi-objective optimization frameworks (Pareto optimization) to evaluate trade-offs among economic, energy efficiency, and environmental performance metrics. Utilize reinforcement
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range of metamaterial concepts. Building on these tools, the researcher will devise structural optimization strategies to tailor the metamaterial architecture for targeted dynamic performance. The most
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manufacturing teams to develop solutions that optimize performance while ensuring manufacturability Summarize key findings for technical and non-technical audiences Build code: Integrate simulation models with
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exploitation of physical parallelism, from the realization of stronger all-optical nonlinearities and scalable synaptic devices to the design of efficient photonic memory architectures to support neuromorphic
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strategies to optimize experimental design. · Integrate genetic and functional data using high-throughput experimental datasets. · Collaborate closely with experimental researchers to align
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Research Scientist in Applied Mathematics, Modeling, and Optimization to contribute to the interdisciplinary Wicked Problems (WiP) framework in the undergraduate program. This role integrates mathematical
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of the appointment, providing the first empirical demonstration of the WaveGuard system. In addition to experimental work, the postdoc will contribute to the numerical design and optimization of the metamaterial
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—such as bent, plateaued, and almost perfect nonlinear (APN) functions—and the design of linear codes with prescribed properties useful for cryptography, including minimal, self-orthogonal, LCD and optimal
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scale problems, nonlinear preconditioners in high performance computing, computational mechanics, the PETSc toolkit, or PDE-constrained optimization. Any project is expected to include a significant