报告人简介
Dr. Vasily Kravtsov has worked for several years as a research assistant at the Physics Department of CU Boulder and joint Institute for Laboratory Astrophysics, focusing on near-fieldoptics, nanotechnology, and femtosecond laser pulses. Vasily is currently a leading research fellow in the Department of Physics, ITMO University. His research interests include two-dimensional quantum materials, ultrafast spectroscopy, and nonlinear nano-optics.
讲座主题
Strong light-matter coupling can significantly enhance the functionality of integrated photonic circuits and associated devices via efficient and controlled nonlinear optical response. Especially interesting are planar dielectric wave guides and resonatorsinter faced with 2D vander Waals semiconductors as they are compact, can be easily integrated on a photonic chip, and can support the strong light-matter coupling regime with exciton-polariton formation at room temperature. We study nonlinear exciton-polaritons in a number of structures, including high-index subwavelength waveguides, photonic crystal slabs, planar Bragg mirror-based resonators, and systems supporting bound states in the continuum. Via combined experimental and theoretical investigations, we show that these hybrid structures can provide an efficient and controllable nonlinear response in a compact chip-compatible geometry. We further demonstrate sensitive electrical and optical control of the underlying exciton-polariton excitations, which offers new approaches towards designing nanophotonic modulators, switches, and interconnects. Our results suggest that nanophotonic waveguides integrated with 2D van der Waals semiconductors provide a promising platform for room-temperature on-chip nonlinear optical and opto-electronic components for next-generation integrated photonic circuits.
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