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Post-fabrication tuning of microring resonators using 3D-printed microfluidics.


ABSTRACT: We demonstrate a method of tuning the resonant frequencies of silicon microring resonators using a 3D-printed microfluidic chip overlaid directly on the photonic circuit with zero energy consumption following the initial tuning. Aqueous solutions with different concentrations of NaCl are used in experimentation. A shift of a full free spectral range is observed at a concentration of 10% NaCl. On a 60 µm microring resonator, this equals a resonant wavelength shift of 1.514 nm when the index of the cladding changes by 0.017 refractive index units (RIUs), or at a rate of 89.05 nm/RIU.

SUBMITTER: Larson K 

PROVIDER: S-EPMC9362736 | biostudies-literature | 2021 Sep

REPOSITORIES: biostudies-literature

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Post-fabrication tuning of microring resonators using 3D-printed microfluidics.

Larson Kevin K   Hammond Alec A   Carver Christian C   Anderson Derek D   Viglione Matthew M   Boaks Mawla M   Nordin Greg G   Camacho Ryan M RM  

Optics letters 20210901 18


We demonstrate a method of tuning the resonant frequencies of silicon microring resonators using a 3D-printed microfluidic chip overlaid directly on the photonic circuit with zero energy consumption following the initial tuning. Aqueous solutions with different concentrations of NaCl are used in experimentation. A shift of a full free spectral range is observed at a concentration of 10% NaCl. On a 60 µm microring resonator, this equals a resonant wavelength shift of 1.514 nm when the index of th  ...[more]

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