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Field
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of advanced antenna technologies for Integrated Sensing and Communication (ISAC) systems. The research will investigate passive and active antenna arrays operating in centimeter- and millimeter-wave bands
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wind, waves, currents, and seismic activities interact with corrosive conditions, accelerating degradation and elevating catastrophic failure risks. Current assessment methods rely heavily on sparse
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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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technologies. This PhD explores how ultrasound aligns particles and controls crystallisation to create materials with tailored anisotropy. Using experimental acoustics, modelling, and advanced characterisation
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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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Subatomic Physics , Experimental Ultrafast Physics , Field Theory , Fluid Physics , Fundamental Quantum Science , GR-Cosmology (gr-qc) , Gravitational Physics , Gravitational Theory , Gravitational Wave
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The Doctoral Candidate will: Perform numerical modelling of the three NDE techniques to evaluate the influence of relevant material property gradients on each NDE observable generating a sizable synthetic
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. Photoacoustic sensing (introductory video: https://youtu.be/2f3V0DQNLYg ) is based on a transformation of absorbed optical energy into ultrasound waves, when a transient optical excitation is used. The optical
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work assignments A wide variety of physical phenomena like radio transmission, ultrasound, acoustics, or tsunami modelling involve the solution of partial differential equations (PDEs) that model wave
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theory and modelling. Experience with acoustic/vibrational waves, periodic structures and/or Metamaterials. Experience with experimental measurement techniques for fluid mechanics. TU Delft Delft