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accelerating the development of high-performance and sustainable metal manufacturing technologies. The PhD studentship is based at The Laser Processing Research Laboratory (LPRL) at The University of Manchester
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PhD scholarship in Mid-Infrared Frequency Comb Technology for High-Sensitivity Sensing – DTU Electro
Job Description If you are eager to build a career in next-generation laser and photonics technologies and are looking for an innovative, collaborative, and multidisciplinary environment to begin
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-enhanced field-resolved spectroscopy”, Nature Photonics (2022) Be part of change Participation in a Max-Planck-Fraunhofer cooperation project Support in setting up an ultra-stable, compact laser system
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laser scanning microscopy, light-sheet fluorescence microscopy) MALDI MSI, laser microdissection MS, and LC-MS analyses to identify metabolite, lipid, and protein profiles in murine tissue and blood
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. The techniques used will include Laser Doppler Vibrometry (LDV) and Air Coupled (AC) ultrasound detection. The candidate will design optimized setups for (i) vibration excitation by an impactor or ultrasonic
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order to improve the trade-off between strength and susceptibility to HE, austenitic-ferritic microstructures will be produced through Laser Powder Bed Fusion (LPBF). • Tasks of the selected researcher
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Research theme: Analytical Chemistry, Laser Physics, Materials Characterisation How to apply: uom.link/pgr-apply-2425 This 3.5-year PhD studentship is open to Home (UK) applicants and EU students
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in the presence of imperfections introduced by the laser and/or intensity and phase modulators. Perform a finite-key analysis of the security of these. systems in the presence of such imperfections
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, and technical staff with expertise in laser diagnostics, spectroscopy, plasma physics, and catalysis. The workplace is located at the Department of Physics at Lund University, in an international and
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laser pulses to create (periodic) assemblies of nanosized chiral spin textures on demand. These tunable structures are predicted to host topological spin waves, and will provide a unique playground to