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Field
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, 100% funded PhD student position to fill starting around June 2026. Research is to be in the field of computational methods in nonlinear and large scale optimization / inverse problems or in novel
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particular, we will use topology and shape optimisation methods to compute the optimal domain shapes that can stabilise solutions with desired/prescribed properties. We will use methods from inverse problems
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for representing a large class of nonlinear systems by a structure close to the linear case or defined by a set of linear submodels [Bernal, 2023, Lendek, 2010]. This representation facilitates the performance
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ecosystem. Key Responsibilities Develop and optimize lithographic patterning of nano- and meso-scale structures, such as gratings, waveguides, cavities, and metamaterials for quantum and THz devices Integrate
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recommend that you apply early as the advert may be removed before the deadline. This fully funded PhD position, offers an exciting opportunity to develop and optimize multiscale models for surfactant
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crucial for optimizing performance in future fusion reactors. This project aims to explore the interaction between EP-driven instabilities and microturbulence using the Gyrokinetic Toroidal Code (GTC), a
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fast operation. The project comprises simulations and design, nanofabrication in collaboration with colleagues, and experimental characterization. Project C: Topology optimization of nanocavity
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with provable performance for nonlinear systems. About us The Department of Mathematical Science provides a creative, dynamic and innovative environment where research, education, and societal
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14 PhD students in the doctoral network, including 4 training schools and two workshops. As a participant of the project, the PhD student will become part of a team at TU Ilmenau with expertise in
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Work Hours Standard Open to External and Internal FLSA Exempt Duration Funding expected to continue Pay Basis Monthly Benefits Eligible Yes Job Summary The Department of Electrical Engineering at