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Compact, Scalable, Fast‐Response Multimode 2 × 2 Optical Switch Based on Inverse Design

Shangsen Sun, Weiyu Tong, Erqi Yang, Bo Wu, Runsen Zhang, Ning Zhu, Bin Hu, Dingshan Gao, Jianji Dong, Xinliang Zhang

2024Laser & Photonics Review19 citationsDOI

Abstract

Abstract Mode‐division multiplexing (MDM) introduces a new dimension to on‐chip optical interconnection, where the multimode optical switch is one of the core components. However, researchers are still struggling to reduce the chip size and response time, despite great efforts being made. Here, a compact, scalable, fast‐response multimode 2 × 2 switch supporting four modes is demonstrated based on the specific inverse design. The device consists of two multimode 2 × 2 CB couplers (including mode converters, multimode interference couplers, and crossings) and a thermo‐optic (TO) phase shifter. It achieves extinction ratios exceeding 15 dB for all modes at the central wavelength of 1.55 µm. All the fundamental components are designed by an improved general shape optimization method, realizing a compact size and a larger manufacturing tolerance (±20 nm). Besides, a hydrogen‐doped indium oxide microheater is introduced as a TO phase shifter to achieve a fast response (≈3.5 µs in average) for all modes. This solution provides an effective avenue toward large‐scale multimode optical switch matrices for the future MDM systems.

Topics & Concepts

Multi-mode optical fiberMicroheaterPhase shift moduleInterconnectionScalabilityElectronic engineeringOptical switchMultiplexingOptoelectronicsChipMaterials scienceComputer scienceOpticsPhysicsOptical fiberInsertion lossTelecommunicationsEngineeringFabricationMedicineDatabaseAlternative medicinePathologyPhotonic and Optical DevicesPhotonic Crystals and ApplicationsSemiconductor Lasers and Optical Devices
Compact, Scalable, Fast‐Response Multimode 2 × 2 Optical Switch Based on Inverse Design | Litcius