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laser pulses to create (periodic) assemblies of nanosized chiral spin textures on demand. These tunable structures are predicted to host topological spin waves, and will provide a unique playground to
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Nanomagnetism, supervised by Prof. Bert Koopmans, based at Eindhoven University of Technology. In this project, we aim to develop an optical pen using laser-induced magnetization dynamics and switching to write
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atom-optical element fidelity. A key long-term goal will be to integrate a continuous atom laser into the system, enabling true continuous-wave operation. This work will contribute to the development
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processes strongly impact global climate. Advanced ocean observations allow us to decipher the current and future functioning of the ocean. Furthermore, seafloor sediments have recorded past changes in
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the device and for algorithm efficiency as compared to qubits. We will explore the use of tightly focused laser beams and their interaction with crystals of trapped ions to realize new ways to prepare and
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on monitoring complex, superposed deformation signals caused by deep subsurface processes (gas storage, production, and injection) and shallow processes (soil compaction, groundwater dynamics), using satellite