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students and a post-doc. The laboratory is fully equipped with lasers, electrooptic systems andultrafast oscilloscopes. The study of nonlinear light propagation is a highly active field of research, renowned
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. The successful candidate will be joining the Attoscience and Ultrafast Optics Research Group led by Prof. Dr. Jens Biegert. We are seeking highly motivated and skilled professional whoes core responsibility will
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polarization via exciton population engineering, including nonlinear optical responses relevant for neuromorphic activation functions. Analysis and interpretation of experimental data in close interaction with
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integrating artificial intelligence, from algorithm design to on-sky demonstration. The objective is to design intelligent adaptive optics systems capable of correcting sensor nonlinearities, anticipating
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the attosecond and extreme-ultraviolet regimes. The activities span ultrafast laser technology and extreme nonlinear optics, as well as studies of electron dynamics in atoms and molecules using attosecond light
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unique industrial laser platform, are (1) to control the generated XUV light by shaping the driving laser field spectrally, spatially and temporally using ultrafast nonlinear optics, and (2) to explore
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are not limited to: Atto-Science, Ultrafast Optics & Nonlinear Optics Photovoltaics, Thermal Photonics & Solar Fuels Optical Sensing & Optoelectronics NanoPhotonics & NanoMechanics Ultracold Quantum Gases
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). The SAFIR team brings together internationally recognised expertise in several multidisciplinary fields, including nonlinear and guided optics, laser sources and frequency combs, ultrafast nonlinear dynamics
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require specific investigation. These systems are of central interest for dual-comb spectroscopy, optical ranging, and neuromorphic computing, but their intrinsically multidimensional nonlinear dynamics
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). Your project combines concepts from nonlinear optics, holographic imaging, femtosecond spectroscopy with DUV spectroscopy and microscopy at the absolute limits of spatial resolution and sensitivity. We