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High-Performance On-Chip Silicon Beamsplitter Based on Subwavelength Metamaterials for Enhanced Fabrication Tolerance

Raquel Fernández de Cabo, David González‐Andrade, Pavel Cheben, Aitor V. Velasco

2021Nanomaterials26 citationsDOIOpen Access PDF

Abstract

Efficient power splitting is a fundamental functionality in silicon photonic integrated circuits, but state-of-the-art power-division architectures are hampered by limited operational bandwidth, high sensitivity to fabrication errors or large footprints. In particular, traditional Y-junction power splitters suffer from fundamental mode losses due to limited fabrication resolution near the junction tip. In order to circumvent this limitation, we propose a new type of high-performance Y-junction power splitter that incorporates subwavelength metamaterials. Full three-dimensional simulations show a fundamental mode excess loss below 0.1 dB in an ultra-broad bandwidth of 300 nm (1400-1700 nm) when optimized for a fabrication resolution of 50 nm, and under 0.3 dB in a 350 nm extended bandwidth (1350-1700 nm) for a 100 nm resolution. Moreover, analysis of fabrication tolerances shows robust operation for the fundamental mode to etching errors up to ±20 nm. A proof-of-concept device provides an initial validation of its operation principle, showing experimental excess losses lower than 0.2 dB in a 195 nm bandwidth for the best-case resolution scenario (i.e., 50 nm).

Topics & Concepts

FabricationSplitterMaterials scienceBandwidth (computing)OptoelectronicsMetamaterialPhotonicsChipOpticsSiliconComputer sciencePhysicsTelecommunicationsAlternative medicinePathologyMedicinePhotonic and Optical DevicesAdvanced Photonic Communication SystemsPhotonic Crystals and Applications