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Field
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of converters in high-power laser systems. Specific requirements: We are looking for candidates with an excellent master’s degree in optics, photonics or electric engineering, physics or comparable. Basic
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optical techniques fail. At low void fractions, in the homogeneous and dilute regimes, techniques such as laser Doppler anemometry, hot-film anemometry, particle image velocimetry, particle tracking
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Navigation System with Artificial Intelligence for Laser Treatment of Vascular Lesions, reference 2023.17571.ICDT, through the IC&DT Project Competition in All Scientific Fields 2023, financed by national
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photolyase proteins) using time-resolved serial femtosecond crystallography at Free-electron laser sources. Time-resolved crystallography is a cutting-edge method to study femto- microsecond structural changes
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-world applications where size, weight, power consumption, and long-term stability are critical. This project aims to overcome these limitations by integrating recent advances in laser cooling, matter-wave
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in optical fibres, hair-thin pieces of glass, for 3D mapping of cancer tissue. Using lasers in the visible range allow the Raman measurements to be integrated with cutting edge fibre-optics and micro
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extra-cavity applications in high power lasers operating in the 1 and 2 μm spectral regions. To do so, the fellows will push state-of-the-art deposition, lithographic, and etching techniques
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with reducing and oxidising gas-phase species (e.g. laser-based imaging diagnostics, setup of model reactors, modelling of underlying reactions, multi-scale simulation of reactive fluids, computational
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macrophage subpopulations in their acute response to reperfusion injury following myocardial infarction. The study employs various imaging modalities, including confocal laser scanning microscopy and light
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characterize new alloys and composites fabricated via laser powder bed fusion additive manufacturing. This work is closely woven into materials science, additive manufacturing, and machine learning realm, with