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: 22.01.2026 Job description: DESY We are launching a national laser development project for laser fusion, dedicated to breaking new ground in laser science and technology. Its goal is to develop the next
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with matter and pursues applications that emerge from this research. It develops and uses ultrafast and ultra-intense lasers and laser-riven short-pulse light sources in a broad spectral range in
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with matter and pursues applications that emerge from this research. It develops and uses ultrafast and ultra-intense lasers and laser-riven short-pulse light sources in a broad spectral range in
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in the Hamburg area in Germany. It operates a 3.4 km-long X-ray laser, which produces X-rays of unique quality for studies in physics, chemistry, the life sciences, materials research and other
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Job description: DESY The European XFEL is currently the world's most powerful free-electron laser and has, over the past decade, significantly advanced the ability to resolve the structure of matter
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preferentially two of the areas instrument development, laser-induced paramagnetic species, EDMR. Applications should be sent by e-mail, together with significant documents, indicating the reference code, in PDF
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Helmholtz Zentrum München - Deutsches Forschungszentrum für Gesundheit und Umwelt | Stein bei N rnberg, Bayern | Germany | about 1 month ago
techiques Excellent track record of research achievements and publications in top-ranked journals Advanced hands-on experience in optics, sensors, lasers, optical fibers Strong experimental and engineering
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preferentially two of the areas instrument development, laser-induced paramagnetic species, EDMR. Applications should be sent by e-mail, together with significant documents, indicating the reference code, in PDF
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Max Planck Institute for Multidisciplinary Sciences, Göttingen | Gottingen, Niedersachsen | Germany | 2 months ago
description Single-molecule X-ray scattering experiments with free-electron lasers offer a new route to the structure determination of biomolecules. Due to the super-low signal-to-noise-ratio, computing
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with free electron lasers offer a new route to the structure determination of biomolecules. Due to the super-low signal-to-noise-ratio, computing the structure from such data is challenging, and new