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Electro-optic modulator based on Vanadium dioxide epsilon-near-zero vertical nanowire triple-cavity in Silicon Waveguide

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arxiv 2203.01431 v1 pith:PKDEQA6P submitted 2022-03-02 physics.optics physics.app-ph

Electro-optic modulator based on Vanadium dioxide epsilon-near-zero vertical nanowire triple-cavity in Silicon Waveguide

classification physics.optics physics.app-ph
keywords dioxidemodulatorvanadiumarraydepthdesignelectro-opticinsertion
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We present an electro-optic modulator exploiting an array of Vanadium dioxide nanorods operating in the epsilon near regime as the active switching material integrated in a silicon waveguide. The modulator takes advantage of the insulator-to-metal transition of Vanadium dioxide to achieve a robust modulation depth of 19.7 dB/micron with a broad wavelength of operation. Using simulations, we demonstrate how the effective permittivity of the metamaterial can be tuned to a near-zero value by varying the nanorod geometry. The paper also proposes a novel hexagonal array design which achieves low insertion losses while retaining a strong modulation depth. The results provide insight into the design of ultra-compact modulators with high operation frequencies and low insertion losses.

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