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will be to: Model the optical, mechanical and optoelectronic properties of the fibers using ray tracing and finite element method models; Select and characterize soft materials for the fibers, and use
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performance metrics such as absorption and diffraction across a large design and material space. Curate and format large datasets of simulated nanostructures and their optical properties in close collaboration
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. Evaluate optical performance metrics such as absorption and diffraction across a large design and material space. Curate and format large datasets of simulated nanostructures and their optical properties in
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this project, we will develop neural diffusion techniques to design materials with targeted optical properties, scaling to large systems through efficient representations and GPU parallelization. We will also
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microscopy, optical interferometry, vacuum technology, finite element method simulations will be involved. Applicants should hold a PhD in Physics, Nano-science, Engineering or similar, experience with optics
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microscopy, optical interferometry, vacuum technology, finite element method simulations will be involved. Applicants should hold a PhD in Physics, Nano-science, Engineering or similar, experience with optics
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research activities within POLIMA. The position is available starting 1 January 2026. The successful candidate will work on developing semi-analytical and numerical techniques to simulate electron-beam
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optics and a Ph.D. in physics, quantum information science, or a related field. Expertise in some of the following areas is expected: Expertise in quantum information processing, quantum optics, or related