Litcius/Paper detail

Low-loss broadband bi-layer edge couplers for visible light

Yiding Lin, Jason C. C. Mak, Hong Chen, Xin Mu, Andrei Stalmashonak, Youngho Jung, Xianshu Luo, Patrick G.-Q. Lo, Wesley D. Sacher, Joyce K. S. Poon

2021Optics Express52 citationsDOIOpen Access PDF

Abstract

Low-loss broadband fiber-to-chip coupling is currently challenging for visible-light photonic-integrated circuits (PICs) that need both high confinement waveguides for high-density integration and a minimum feature size above foundry lithographical limit. Here, we demonstrate bi-layer silicon nitride (SiN) edge couplers that have ≤ 4 dB/facet coupling loss with the Nufern S405-XP fiber over a broad optical wavelength range from 445 to 640 nm. The design uses a thin layer of SiN to expand the mode at the facet and adiabatically transfers the input light into a high-confinement single-mode waveguide (150-nm thick) for routing, while keeping the minimum nominal lithographic feature size at 150 nm. The achieved fiber-to-chip coupling loss is about 3 to 5 dB lower than that of single-layer designs with the same waveguide confinement and minimum feature size limitation.

Topics & Concepts

OpticsCoupling lossWaveguideBroadbandMaterials scienceOptoelectronicsLithographyCoupling (piping)Photonic integrated circuitEnhanced Data Rates for GSM EvolutionVisible spectrumWavelengthFacet (psychology)SiliconCoupled mode theoryIntegrated circuitFeature (linguistics)Optical fiberElectron-beam lithographyNanophotonicsSilicon photonicsPower dividers and directional couplersElectronic circuitSilicon nitrideSlow lightSurface plasmonWavelength-division multiplexingPhysicsRange (aeronautics)Slot-waveguidePhotonicsLight scatteringInsertion lossLayer (electronics)Mode couplingPhotonic and Optical DevicesAdvanced Fiber Laser TechnologiesAdvanced Fiber Optic Sensors