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activities of the Magnonic team within the Microwave department. The scientific activities of this department are related to the propagation of electromagnetic waves, and concern mainly the modelling, design
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-center emission frequency, enabling an evaluation of the electromechanical efficiency. Counter-propagating SAWs generated by two IDTs will form a standing wave, with phase control used to maximize coupling
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downlink modulators, digital communication equipment; Wave-propagation and interaction, including signal impairments and regulatory aspects; Performance assessment of RF and Optical remote sensing data
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for a PhD candidate with a background in numerical analysis to contribute to the development of numerical methods for inverse problems in wave propagation. You will become a member of the Department
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exchanges and collaboration with researchers from the different partner institutions. Relevant references : Bonneton, P. (2023). Energy and dissipation spectra of waves propagating in the inner surf zone
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Institute’s website here: https://apply.interfolio.com/179050 . The incumbent will split their time between teaching (50%) at the Graduate Center and conducting research at CCA (50%). At the end the 3-year
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surface electromagnetic waves (polaritons) propagating along the surface of polar nanowires with a metallic coating. Experimental data show that this coating acts as a polariton launcher and hence its
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downlink modulators, digital communication equipment; Wave-propagation and interaction, including signal impairments and regulatory aspects; Performance assessment of RF and Optical remote sensing data
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for, combining theoretical ideas with practical measurements and applications. Familiarity with at least one of the following: radio channel measurements for any applications, radio wave propagation, integrated
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simulation of topological band structures. Job Duties The job duties will be the following: Carry out research on phonon propagation in topological phononic crystal waveguides probed by Brillouin light