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structures and metasurfaces designed to control the amplitude, phase, and polarization of electromagnetic fields, enabling new approaches for manipulating vectorial light fields. A major research direction of
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nanofabrication, electromagnetic and micromagnetic computational modelling, theoretical and experimental analysis of electromagnetic properties of metamaterials, as well as the fundamentals of microwave
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extensive electromagnetic modeling to optimize the waveguide structures for minimal loss, efficient confinement, and effective mode matching with external optical components. Particular attention will be
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electromagnetic transport through disordered media. Recent theoretical work suggests that when scattering preserves the helicity (handedness of circular polarization) of electromagnetic waves, Anderson localization
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, and Jason Widegren https://www.nist.gov/programs-projects/electric-acoustic-spectroscopy-intermolecular-interactions-solution#OnChip NIST’s Material Measurement Laboratory (MML) and Communications
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that respond to electrical, electromagnetic, acoustic and biochemical cues to achieve wireless, real-time control of therapeutic protein expression and metabolic regulation. Leveraging innovative platforms
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to electrical, electromagnetic, acoustic and biochemical cues to achieve wireless, real-time control of therapeutic protein expression and metabolic regulation. Leveraging innovative platforms such as direct
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architectures (including gap-waveguide technology) to maximize isolation, efficiency, and compactness. The successful candidate will engage in antenna design, electromagnetic modeling, array integration, and
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design electronic devices and software for underwater acoustic communication and positioning. Based in the Sensors Electromagnetics and Acoustics Laboratory (SEAlab) in the School of Engineering, you will
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or the vibrational transitions of a material, to the spatially confined electromagnetic field of an optical resonator. Most importantly, this occurs even in the dark because the coupling involves the zero-point