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Dynamic dispersion tuning of silicon photonic waveguides by microelectromechanical actuation

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Abstract

Efficient nonlinear silicon photonics rely on phase-matching through fine waveguide dispersion engineering. We experimentally demonstrate dynamic dispersion tuning of 800 ps/nm/km in a silicon waveguide ring resonator, by using microelectromechanical actuation of an adjacent suspended waveguide rim.

© 2017 Optical Society of America

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