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with intelligent, data-driven emergency planning, aiming to develop robust tools for communities and authorities to prevent and mitigate the impact of natural disasters such as wildfires. Working closely
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-matter interactions for applications in sensing, optical communications, and quantum technologies. The scientific environment at our department is vibrant and highly collaborative with world-class
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Image processing Optical bench instrumentation – set up and alignment Numerical modelling Scientific software development Geochronology You should possess strong communication and academic writing skills
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group specializes in experimental quantum technologies spanning quantum information processing, quantum communication, and precision sensing. In this PhD project, you will work at the forefront of solid
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:2307.10021 (2023). [Gritsch2025] Gritsch, A., Ulanowski, A., Pforr, J. & Reiserer, A. Optical single-shot readout of spin qubits in silicon . Nature Communications. 16, 64 (2025). [Rosiek2023] Rosiek, C. A
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proficient in ROS/ROS2, Python and/or C++/C# Knowledge and/or experience within one or more of the fields of acoustic sensing, hydrodynamics, and machine learning is a plus. You have strong communication
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estimation of rotating tools. Direct tool wear characterization will be based on optical measurement systems and data processing to achieve wear feature recognition and quantification. Indirect tool wear
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efforts in materials physics and design, quantum optics, sensing and communication, biophysics, plasma physics, and continuum physics. Our research impacts society with new sustainable energy technologies