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APT, TEM, FIM, EBIC, EBSD, XPS Kelvin probe microscopy, machine learning augmented analysis techniques) Experimental and computational analysis of transport and the reaction of surfaces and particles
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principles of mixers, switches, RF amplifiers, RF oscillators, phase detectors, filters and other RF devices Strong understanding of RF fundamentals: impedance matching, S-parameters, gain, noise figure, etc
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Anemometry (LDA), and Particle Image Velocimetry (PIV). Extend existing in-house wind field models (based on stochastic differential equations such as Langevin or Fokker-Planck types). Integrate novel
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. The role involves setting up experimental models using Particle Image Velocimetry (PIV) and performing Computational Fluid Dynamics (CFD) simulations to analyze fluid flow and deposition patterns. The data
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Society (CLICCS) (climate research), Understanding Written Artefacts (manuscript research) and Quantum Universe (mathematics, particle physics, astrophysics, and cosmology). An equally important core
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centres pool joint research activities across disciplines. These include the following: energy; information/systems/technologies; mobility systems; elementary particle and astroparticle physics; climate and
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(manuscript research) and Quantum Universe (mathematics, particle physics, astrophysics, and cosmology). An equally important core research area is Infection Research, in which researchers investigate
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system and in the combination of both materials in the spectral range > 1.5 µm You will calculate, simulate and optimize fiber components (pump couplers, wavelength-division multiplexers, filters, mode
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) Mathematical Modeling, Optimization, and Simulation Classical Image Processing and Machine/Deep Learning Probalistic Sensor Data Processing ( Kalman Filter, etc.) What you can expect A dynamic work environment
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scientific basis for decision-making. Example 3: Theoretical physics in Cameroon A physicist from Cameroon is conducting research into the highly topical and dynamic issue of quantum many-particle systems out