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We demonstrate two- and full three-dimensional simulation of an active silicon-based photonic crystal chromatic dispersion compensator with low power consumption of 114nW and functioning at 40.5MHz. The novel device allows waveguiding and electrical transport to be individually tailored to a large extent.
In this work, we demonstrate two- and three-dimensional (3D) simulations of an active silicon-based photonic crystal chromatic dispersion compensator utilizing the free carrier dispersion effect. The device has a low power consumption of 114nW and its intrinsic device modulation speed is predicted to function at 40.5MHz. Due to the device architecture, simulation must be carried out in 3D so as to...
We show full 3D simulation and fabrication of an active silicon-based photonic crystal chromatic dispersion compensator with high power efficiency and low power consumption. The device makes use of a novel structure where optical waveguiding and electrical transport properties can be individually tailored to a large extent.
Broadband variable chromatic dispersion in C-band frequency range is demonstrated using novel nanostructured electro-optic waveguide consisting of low-loss Si3N4 rectangular core and Si/SiO2 two-dimensional photonic-crystal layer controlled by voltage bias
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