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Gamma radiation effects on passive silicon photonic waveguides using phase sensitive methods

Nicholas Boynton, Michael Gehl, Christina Dallo, Andrew Pomerene, Andrew Starbuck, Dana Hood, P.E. Dodd, Scot E. Swanson, Douglas C. Trotter, Christopher T. DeRose, Anthony L. Lentine

2020Optics Express25 citationsDOIOpen Access PDF

Abstract

Passive silicon photonic waveguides are exposed to gamma radiation to understand how the performance of silicon photonic integrated circuits is affected in harsh environments such as space or high energy physics experiments. The propagation loss and group index of the mode guided by these waveguides is characterized by implementing a phase sensitive swept-wavelength interferometric method. We find that the propagation loss associated with each waveguide geometry explored in this study slightly increases at absorbed doses of up to 100 krad (Si). The measured change in group index associated with the same waveguide geometries is negligibly changed after exposure. Additionally, we show that the post-exposure degradation of these waveguides can be improved through heat treatment.

Topics & Concepts

OpticsWaveguideRefractive indexPhotonicsPhotonic integrated circuitMaterials scienceSiliconInterferometryWavelengthRadiationOptoelectronicsSilicon photonicsPhase (matter)PhysicsQuantum mechanicsPhotonic and Optical DevicesIntegrated Circuits and Semiconductor Failure AnalysisAdvanced Photonic Communication Systems
Gamma radiation effects on passive silicon photonic waveguides using phase sensitive methods | Litcius