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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-driven 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-driven short-pulse light sources in a broad spectral range in
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to their repair mechanisms and their influence on tissue regeneration and fibrosis in response to repAMI. Using various imaging techniques, such as confocal laser scanning microscopy and light-sheet fluorescence
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with matter and pursues applications that emerge from this research. It develops and uses ultra-fast and ultra-intense lasers and laser-driven short-pulse light sources in a broad spectral range in
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reperfusion injury. Using various imaging techniques such as light-sheet fluorescence microscopy, confocal laser scanning microscopy, MALDI MSI and flow cytometric analyses, the regulatory mechanisms
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with matter and pursues applications that emerge from this research. It develops and uses ultra-fast and ultra-intense lasers and laser-driven 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-driven short-pulse light sources in a broad spectral range in
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: Growing highly UV-transparent BaMgF4 crystals. Characterizing grown crystals through, e.g., transmission spectroscopy, laser scattering tomography, and determination of nonlinear optical coefficients
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Cu3 O7-x in layer architectures for potential quantum computers. The tasks include the preparation of films on relevant substrates using pulsed laser deposition, the microstructuring of the grown