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approaches, where nonlinear FEM, rule-based design, parametric design etc and general model-based systems engineering approaches are a plus. Experience applying artificial intelligence and machine learning
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, and laboratory operations. Responsibilities include: Applying advanced understanding of ultrafast spectroscopy, nonlinear optics, and materials physics to research problems. Conducting literature
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status rate at the School of Mechanical, Aerospace and Civil Engineering at the University of Sheffield under the supervision of Professor Pierre Ricco (http://www.pierre-ricco.co.uk/). Additionally
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Engineering at NTNU, where computational mechanics, advanced finite element modelling, and artificial intelligence meet. As a PhD candidate, you will work at the forefront of nonlinear simulation, contributing
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Innovative electrical interfaces for solid-state electrocaloric cooling using ferroelectric ceramics
that are possibly nonlinear. 2. Based on the global approach performed in the previous point, design and implementation of efficient electrical interfaces featuring charge recovery to ensure regenerative cycles
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impact-based health early warning systems. The successful candidate will join the research team of Dr. Joan Ballester Claramunt (https://www.joanballester.eu/ ) at ISGlobal within the framework
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for which they are eligible. Projects may be undertaken with any Research Group. Research lines include, but are not limited to: Atto-Science, Ultrafast Optics & Nonlinear Optics Photovoltaics, Thermal
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-network computing. The work includes modeling coupled nonlinear dynamical systems, developing learning and inference schemes for neuromorphic/reservoir and Ising-type computation, and benchmarking
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B.S. degree in photonic science and engineering. The faculty engage in fundamental and applied research and education in lasers, optical fibers, semiconductor and integrated photonic devices, nonlinear
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, and nonlinear optics. We are developing efficient X-ray optical elements to build up the functionalities by controlling the 3D structure of materials over large volumes and on nanometre scales, such as