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of both the fundamental and applied aspects of light-matter interactions at the nanoscale. In more detail, we study light-driven charge, spin and lattice dynamics and strong optical nonlinearities in
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The Department of Applied Physics and Electronics currently has around 90 employees and conducts research in energy technology, laser spectroscopy, medical technology, electronics, and system
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expertise in spectroscopic techniques such as FCS and FCCS, hands-on experience with Dynamic Profiler, and proficiency in super-resolution (Airyscan) and Light sheet microscopy is also a requirement. The
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of importance in astrophysics. In double-resonance spectroscopy, a high-power laser pumps a single energy level and a weaker laser probes transitions from this selectively populated level to higher energy levels
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spectroscopy, electronics and systematics, biomedical engineering. We are recruiting a PhD student in Applied Physics with a focus on biomedical engineering. The project is focused on magnetic resonance imaging
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the dynamics of electronic degrees of freedom (charges and spins) in nanostructured materials. The PhD student will study the physical mechanisms underlying light-matter interactions in nanoscale magnetic
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the environment. We aim to dissect light and magnetosensing signaling pathways to understand the biotechnological potential of these small proteins and aim to use them as tools to engineer biosynthetic pathways. In
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optical metamaterials for energy-efficient logic operations and information processing – Towards light-based computing technologies’ (grant n. KAW 2023.0089 – https://kaw.wallenberg.org/en/nicolo-maccaferri
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system engineering. For more information see here . The research group “Cooperative and intelligent embedded systems” are recruiting a PhD student in Applied Electronics with focus on Safe and Secure