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Description This PhD project relates with ongoing research projects in the area of renewable energy powered membrane processes, in particular solar-powered electrodialysis at IAMT. The removal
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of models in existing simulation software conducting numerical studies, also on HPC systems Further specific tasks can be tailored to the attitude and interests of the PhD students/postdocs. Requirements
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phase (April 2025 – December 2028), the TRR404 offers several PhD and Postdoc positions with starting dates from April 1, 2025 onwards. All vacancies can be found here: https://cfaed.tu-dresden.de/trr
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are an advantage: femtosecond laser and diagnostics, high power lasers, ultrahigh vacuum, programming skills (Labview, Python) Ability to work closely within a team: engineers, students, postdocs and scientists, and
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using laser- and accelerator-based pulsed light sources. Set-up and optical characterization of a liquid jet using various optical techniques mainly based on femtosecond optical lasers. Integrating
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coherent and incoherent seed sources Implement intelligent control over spectral and temporal shapes of broadband nanosecond laser pulses Broadband UV-generation position Implement nonlinear multi-pass cells
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change in ultrafast optics pushed, among others, by DESY, one of our research topics focuses on the development of ultra-short pulse Ytterbium lasers employing multi-pass cell post-compression. In close
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on very recent pioneering works (Schrödel et al, Nature Photonics 18, 54-59, 2024), one of our research topics focuses on novel approaches to control laser pulses directly in air or other gaseous media
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particle and photon sources owing to their ability to sustain accelerating fields on the scale of hundreds of GV/m — three orders of magnitude higher than radio-frequency accelerators. At DESY, we're
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Specifications. The PhD topic consists of two parts, the weighting of which can be adjusted. First, natural frequencies of different UAV categories for different power settings shall be modelled. Second, based