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Sub-nanosecond all-optically reconfigurable photonics in optical fibres

Kunhao Ji, David J. Richardson, S. Wabnitz, Massimiliano Guasoni

2025Nature Communications17 citationsDOIOpen Access PDF

Abstract

Reconfigurable photonic systems provide a versatile platform for dynamic, on-demand control and switching. Here we introduce an all-optical platform in multimode and multicore fibres. By using a low-power probe beam and a counter-propagating control beam, we achieve dynamic control over light propagation within the fibres. This setup ensures simultaneous phase-matching of all probe-control beam four-wave mixing interactions, enabling all-optical reconfiguration of the probe modal state by tuning the control beam power. Key operations such as fully tuneable power splitting and mode conversion, core-to-core switching and combination, along with remote probe characterization, are demonstrated at the sub-nanosecond time scale. Our experimental results are supported by a theoretical model that extends to fibres with an arbitrary number of modes and cores. The implementation of these operations in a single platform underlines its versatility, a critical feature of next-generation energy-efficient photonic systems. Scaling this approach to highly nonlinear materials could underpin photonic programmable hardware for optical computing and machine learning.

Topics & Concepts

PhotonicsControl reconfigurationNanosecondMulti-mode optical fiberComputer scienceOptical powerOptical switchMaterials sciencePower (physics)Beam (structure)OptoelectronicsOpticsOptical fiberElectronic engineeringLaserPhysicsEngineeringTelecommunicationsEmbedded systemQuantum mechanicsOptical Network TechnologiesPhotonic and Optical DevicesNeural Networks and Reservoir Computing
Sub-nanosecond all-optically reconfigurable photonics in optical fibres | Litcius