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Programmable integrated photonics for topological Hamiltonians

Mehmet Berkay On, Farshid Ashtiani, David Sánchez-Jácome, Daniel Pérez, S. J. Ben Yoo, Andrea Blanco‐Redondo

2024Nature Communications41 citationsDOIOpen Access PDF

Abstract

A variety of topological Hamiltonians have been demonstrated in photonic platforms, leading to fundamental discoveries and enhanced robustness in applications such as lasing, sensing, and quantum technologies. To date, each topological photonic platform implements a specific type of Hamiltonian with inexistent or limited reconfigurability. Here, we propose and demonstrate different topological models by using the same reprogrammable integrated photonics platform, consisting of a hexagonal mesh of silicon Mach-Zehnder interferometers with phase shifters. We specifically demonstrate a one-dimensional Su-Schrieffer-Heeger Hamiltonian supporting a localized topological edge mode and a higher-order topological insulator based on a two-dimensional breathing Kagome Hamiltonian with three corner states. These results highlight a nearly universal platform for topological models that may fast-track research progress toward applications of topological photonics and other coupled systems.

Topics & Concepts

PhotonicsTopological insulatorTopology (electrical circuits)Hamiltonian (control theory)Topological degeneracyPhysicsReconfigurabilityLasing thresholdSymmetry protected topological orderQuantumTopological orderComputer scienceQuantum mechanicsTelecommunicationsMathematicsLaserCombinatoricsMathematical optimizationTopological Materials and PhenomenaNeural Networks and Reservoir ComputingQuantum Mechanics and Non-Hermitian Physics
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