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This project will address the recently emerged new platform for nanophotonics based on high-index dielectric nanoparticles that opened a whole new realm of all-dielectric resonant nanophotonics and meta-optics. High-permittivity nanoparticles exhibit strong interaction with light due to the excitation of electric and magnetic Mie-type resonances.
This project aims to design composite structures, or metamaterials, that will enhance the performance of the Magnetic Resonance Imaging Machines which are being used in the hospitals.
This project goal is to investigate, theoretically and experimentally, the role of symmetry in space and time in classical and quantum nonlinear photonics. Specific aims include the development of optical signal amplifiers, switches, lasers, and quantum photon sources.
By borrowing a concept of Bound States in the Continuum from quantum mechanics we can create extremely high quality optical resonators that are highly sought after in many applications.
This project will address significant problems of feasibility and tunability of novel photonic metadevices aiming to open novel possibilities for a control of light flows topologically protected against scattering losses, energy leaking, or imperfections.
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