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significantly improve the resolution of regional models of the crust and upper mantle of the FMC, including the distributions of shear wave velocities and radial and azimuthal anisotropies (e.g., Mordret et al
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study the transformation of initially spherical liquid droplets under the effect of radiation stresses, or “radiation pressure,” from ultrasonic waves (MHz) using both theoretical and numerical models
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will focus on two target systems: Natural media: Study the propagation of slow waves in model soft media (hydrogels and suspensions) and their interaction with a target, with a focus on the generated
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will be co-supervised by LATMOS (A. Määttänen) and LMD (A. Podglajen), and will work within a team of researchers specialising in atmospheric physics and research engineers with expertise in modelling
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using this module in the model bacterium Escherichia coli. Redox titration approaches coupled with EPR (Electron Paramagnetic Resonance) spectroscopy techniques will be used to stabilize and study the
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concurrently heated with an additional external stimulus. Photoacoustic sensing (introductory video: https://youtu.be/2f3V0DQNLYg ) is based on a transformation of absorbed optical energy into ultrasound waves