Ultralow-loss waveguide crossing for photonic integrated circuits by using inverted tapers
Lin Han, Xiaoke Ruan, Weijie Tang, Tao Chu
Abstract
An ultralow-loss silicon planar waveguide crossing operating in the O-band was experimentally demonstrated based on the Gaussian beam synthesis method. Elliptical parabolic inverted tapers were introduced in our design to reduce the crossing loss. According to the measurement results, the proposed device exhibits an insertion loss of 0.008 dB, which is the lowest reported loss for planar silicon waveguide crossings operating in the O-band. The device exhibits a low crosstalk below -40 dB over a 40 nm wavelength range with a compact footprint of 18 × 18 µm 2 and can be fabricated in a complementary metal-oxide-semiconductor-compatible process.
Topics & Concepts
OpticsPlanarPhotonic integrated circuitWaveguideMaterials scienceInsertion lossIntegrated circuitFootprintSilicon photonicsSiliconWavelengthIntegrated opticsOptoelectronicsCrosstalkElectronic circuitGaussian beamPhotonicsBeam propagation methodElectron-beam lithographyGaussianBeam steeringParabolic reflectorInterferometryOptical switchBeam (structure)Circuit designWavelength-division multiplexingCoupled mode theoryPhotonic and Optical DevicesPhotonic Crystals and ApplicationsNeural Networks and Reservoir Computing