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ICFO’s Attoscience and Ultrafast Optics group works in a highly interdisciplinary field which fuses ultrafast laser physics, extreme nonlinear optics, atomic and molecular physics, SXR spectroscopy
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, at Technical University of Denmark (Kopenhagen) to study optical ring resonators, and University College London (UK) to study optical excitation in memristors. There will also be regular meetings with the other
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of novel nanomaterials to address modern challenges in sustainability, nonlinear optics, photonic and quantum technologies, new nanostructured materials, sensing, imaging and clean energy. The group
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, and nonlinear optics. We are developing efficient X-ray optical elements to build up the functionalities by controlling the 3D structure of materials over large volumes and on nanometre scales, such as
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of Technology and one part-time professor. The group has three research tracks: freeform design, imaging optics and improved direct methods; for more details see https://martijna.win.tue.nl/Optics/ . The text
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such as spectrally controlled reflectivity and transmission, down conversion, light trapping and light extraction, nonlinear effects, and solar cells. The work involves electromagnetic modeling
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nonlinear integrated photonics with hybrid integrated pump laser sources facilitates the exploration of new applications of optical sources, in particular for quantum-enhanced metrology and spectroscopy
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required: nonlinear optics (e.g. optical parametric amplifiers), electrical switching, high-frequency electronics, thermal transport physics, and beamline experiments at user facilities. Besides technical
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the College of Engineering (CoE) at UTA, one of the largest engineering colleges in Texas (https://www.uta.edu/engineering ). Active research areas include optics and photonics; power electronics; renewable
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National Institutes of Natural Sciences, National Institute for Physiological Sciences | Japan | about 1 month ago
] (Upon hiring) In this call, we seek an early-career researcher dedicated to advancing laser microscopy toward higher sophistication and super-resolution using nonlinear optics or promoting high-definition