Active dielectric antenna on chip for spatial light modulation

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Abstract

Integrated photonic resonators are widely used to manipulate light propagation in an evanescently-coupled waveguide. While the evanescent coupling scheme works well for planar optical systems that are naturally waveguide based, many optical applications are free-space based, such as imaging, display, holographics, metrology and remote sensing. Here we demonstrate an active dielectric antenna as the interface device that allows the large-scale integration capability of silicon photonics to serve the free-space applications. We show a novel perturbation-base diffractive coupling scheme that allows a high-Q planer resonator to directly interact with and manipulate free-space waves. Using a silicon-based photonic crystal cavity whose resonance can be rapidly tuned with a p-i-n junction, a compact spatial light modulator with an extinction ratio of 9.5 dB and a modulation speed of 150 MHz is demonstrated. Method to improve the modulation speed is discussed. © 2012 Macmillan Publishers Limited. All rights reserved.

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APA

Qiu, C., Chen, J., Xia, Y., & Xu, Q. (2012). Active dielectric antenna on chip for spatial light modulation. Scientific Reports, 2. https://doi.org/10.1038/srep00855

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