Symmetry breaking in finite Mie-resonator arrays enhances Q-factors via redistributed radiation channels and enables polarization conversion through strengthened in-plane nonlocal couplings.
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Integrating thin InSe with a Mie-resonant Si3N4 waveguide reduces excitonic decay time by a factor of up to three, yielding Purcell factors of approximately 3 for out-of-plane and 2.1 for in-plane excitons.
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Mie-tronics supermodes and symmetry breaking in nonlocal metasurfaces
Symmetry breaking in finite Mie-resonator arrays enhances Q-factors via redistributed radiation channels and enables polarization conversion through strengthened in-plane nonlocal couplings.
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Purcell enhancement in layered InSe on the Mie-resonant silicon nitride waveguide
Integrating thin InSe with a Mie-resonant Si3N4 waveguide reduces excitonic decay time by a factor of up to three, yielding Purcell factors of approximately 3 for out-of-plane and 2.1 for in-plane excitons.