Tunable ring-coupled Mach-Zehnder interferometer based on lithium niobate
Date
2014
Authors
Solmaz, M. E.
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Abstract
The fabrication and characterization are reported of a Fano resonance-based electro-optically tunable ring resonator-coupled Mach-Zehnder interferometer device based on a chalcogenide-lithium niobate hybrid waveguide system. The experiments reveal inherent asymmetric lineshapes that can be flipped to a near symmetrical resonance by applying a dc voltage of ~10 V across the electrode at the MZI non-resonator arm. Further increase in voltage yields the reverse of initial asymmetry. The optical filter-based transfer-matrix model easily explains the experimental data and indicates ways to further enhance the usability of such architecture. © 2014 Taylor and Francis.
Source Title
Journal of Modern Optics
Publisher
Taylor and Francis
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Keywords
Chalcogenide, Lithium niobate, Mach-Zehnder interferometer, Tunable optical filter, Chalcogenides, Optical filters, Resonance, Waveguides, DC voltage, Fabrication and characterizations, Filter-based, Hybrid waveguides, Lithium niobate, Ring-coupled, Transfer-matrix modeling, Tunable optical filters, Mach-Zehnder interferometers
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Language
English