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We demonstrate an E-O polymer infiltrated silicon photonic crystal slot waveguide modulator. Enhanced by improved poling efficiency and slow light effect, we achieve an ultra-high effective r33 of 735pm/V and VπL of only 0.44Vmm.
We propose a nanophotonic modulator structure based on silicon photonic crystal slot waveguide filled with electro-optic polymer. The slow photon effect in conjunction with the strong optical confinement enhances the electro-optic coefficient over 2500 times.
We present the optical design of the photonic crystal modulator based on silicon nano-pillar array filled with functional polymer. The device will achieve an ultra compact size and sub-volt driving voltage with the slow-photon effect.
We present the latest progress on polymer photonics and optical interconnects by introducing several innovative design concepts, such as hybrid silicon-polymer photonic crystal waveguide, domain inverted electro-optic polymer linear modulator, and bi-directional optical bus structure.
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