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phase-matching regimes, design innovative gas targets and laser-driven generation geometries to increase XUV yield. Successful achievement of these goals promises to revolutionize XUV light generation in
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designs will be developed for this purpose, including a millifluidic device. The work includes design and experimental studies of simple model systems as well as more applied studies. The applicant should
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discriminant models Design and use of autoencoders (VAEs, GANs), diffusion models, and other ML methods for analysing and discovering patterns in probability distributions in latent space. We are not accepting
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to work on building the next generation of quantum processors based on superconducting circuits. To achieve this ambitiuous goal we have a variety of projects related to: Simulation, design and
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interdisciplinarity: it combines both, experimental and theoretical expertise, spanning from the investigation of surface plasmons and the design of nano-structured catalyst materials to density functional theory
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from the investigation of surface plasmons and the design of nano-structured catalyst materials to density functional theory calculations to understand reaction kinetics. It provides an international and
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more positivist research approaches can be applied, depending on the proposed research questions and design. The successful candidate will have the opportunity to collaborate with colleagues both within
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on the proposed research questions and design. The successful candidate will have the opportunity to collaborate with colleagues both within and outside SLU in financial management, sustainability accounting, and
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to make a difference. Do you want to be involved and contribute to our development? Together, we can create a sustainable future through knowledge and innovation. We believe that knowledge and new
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to control the electronic properties of organic semiconductors through chemical doping. The work will combine molecular and materials design with advanced structural, spectroscopic, electrical, and