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of electromagnetic fields with matter, ranging from single atoms to mesoscopic solid-state objects (e.g., dielectric nano and microspheres), across both classical and quantum regimes. We design and optimize novel
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induced effects and overall elucidate their electronic and magnetic properties. Prof. Dr. Leticia Tarruell: “Ultracold Quantum Gases research group” Many-body physics with atomic quantum simulators (MAPS
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based on Pb/Hg – free colloidal quantum dots with a focus on III-V CQDs The aim of the project is to optimize the material properties as well as the device stack on a die level followed by integration
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. The successful candidate will be joining the Atomic Quantum Optics group led by Prof. Dr. Morgan Mitchell. Searches for new particles and forces using table-top experiments is an expanding frontier of fundamental