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Field
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cells flowing in microfluidic chips (Göllner, ACS Applied Materials & Interfaces, 2025). Such a chip format combined with low-cost small laser diodes for excitation of the photoacoustic signals can allow
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injecting a high-speed moist jet into a controlled, cold environment. The student will contribute to the development and application of advanced optical and laser-based diagnostics to characterise
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atom-optical element fidelity. A key long-term goal will be to integrate a continuous atom laser into the system, enabling true continuous-wave operation. This work will contribute to the development
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industrial environmental burden of our generation. Disruptive innovations are required for alternative reduction processes that convert mineral ores into metals without today’s carbon-based methods
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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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quantum remote sensing of atoms in the MLT. The new, flexible dye laser systems require hands-on work in optics (spectroscopy, laser physics) and software development for lidar control. Data evaluation is
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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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, conference participation), as well as those with practical experience in the specified research techniques (continuous-wave lasers, optical frequency combs, atomic spectroscopy, and techniques for laser
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injury following myocardial infarction. The study employs various imaging modalities, including confocal laser scanning microscopy and light sheet fluorescence microscopy, alongside flow cytometric and