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High-efficiency grating coupler based on fast directional optimization and robust layout strategy in 130 nm CMOS process

Xiangyu Luo, Guangcan Mi, Yanbo Li, Tao Chu

2022Optics Letters22 citationsDOI

Abstract

We experimentally demonstrated a high-efficiency grating coupler by combining an interleaved etch and apodized structure for fiber-to-chip coupling. The grating coupler was optimized using the fast directional optimization method to achieve apodization. The grating coupler utilized a layout strategy involving an extended mask to avoid alignment errors for a multi-etch structure. The coupling efficiency was measured to be -2.2 dB at a wavelength of 1549 nm with a 3 dB bandwidth of 47 nm. The grating coupler, having no gold reflector, subwavelength index matching structure, or additional material layers, was fabricated using a commercial silicon photonics process with a minimum feature size of 140 nm. This grating coupler design provides a robust and effective coupling scheme and the proposed method can be employed to adopt the design in accordance with standard foundry design rules.

Topics & Concepts

GratingOpticsMaterials scienceApodizationBlazed gratingBandwidth (computing)Diffraction gratingPower dividers and directional couplersCoupling (piping)Rigorous coupled-wave analysisPhotonicsCMOSHybrid couplerOptoelectronicsWavelengthPhotonic integrated circuitElectron-beam lithographyCoupled mode theoryMultiplexerSilicon photonicsIntegrated circuitRat-race couplerBeam propagation methodRefractive indexElectronic engineeringChipOptimal designInterferometryComputer sciencePhotonic and Optical DevicesOptical Coatings and GratingsAdvanced MEMS and NEMS Technologies
High-efficiency grating coupler based on fast directional optimization and robust layout strategy in 130 nm CMOS process | Litcius