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Germanium-on-silicon waveguides for long-wave integrated photonics: ring resonance and thermo-optics

Dmitry A. Kozak, Nathan F. Tyndall, Marcel W. Pruessner, William S. Rabinovich, Todd H. Stievater

2021Optics Express21 citationsDOIOpen Access PDF

Abstract

Germanium-on-silicon (GOS) represents the leading platform for foundry-based long-wave infrared photonic integrated circuits (LWIR PICs), due to its CMOS compatibility and absence of oxides. We describe ring resonance (Q-factors between 2×10 3 and 1×10 4 ) and thermo-optic tunability in germanium-on-silicon waveguides throughout the long-wave-infrared. The ring resonances are characterized by Q-factors and couplings that agree with measurements of propagation loss (as low as 6 dB/cm) and simulations and are enabled by broadband edge coupling (12dB/facet over a 3 dB bandwidth of over 4 microns). We demonstrate the furthest into the infrared that ring resonators have been measured and show the potential of this platform for photonic integration and waveguide spectroscopy at wavelengths from 7 microns to beyond 11 microns.

Topics & Concepts

GermaniumOpticsMaterials scienceOptoelectronicsPhotonic integrated circuitSilicon photonicsResonatorPhotonicsSiliconWaveguideInfraredBroadbandPhysicsPhotonic and Optical DevicesAdvanced Fiber Laser TechnologiesAdvanced Fiber Optic Sensors
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