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arxiv: 2506.21388 · v2 · pith:XH42PHMCnew · submitted 2025-06-26 · ⚛️ physics.optics

Broadband nonlinear optical microresonator array for topological second harmonic generation

classification ⚛️ physics.optics
keywords topologicalnonlinearopticalsystemarraybroadbandedgegeneration
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Topological photonics enables robust light manipulation with third-order optical nonlinearity, yet integrating second-order optical nonlinearity into a topological system faces fundamental challenges: frequency-dependent topological bandgaps impede simultaneous edge states for pump and second harmonic photons at an octave. Here we present a broadband topological nonlinear photonic system via dual frequency topological bandgap engineering in a 2D nonlinear microresonator array. By designing a square lattice with synthetic magnetic fluxes, we achieve topological phase matching preserving unidirectional edge states for both frequencies while enabling efficient second-harmonic generation. The system exhibits flux-programmable SH chirality, where SH photons reverse propagation direction via Chern number transitions (e.g. C = -1 to +1) without sacrificing robustness. Moreover, we show that the design theoretically yields over 100 times higher SHG efficiency than single resonators at high powers via topology-enhanced coherent buildup. Our topological SHG works in a parameter regime that can be readily accessed by using existing low-loss integrated photon platforms like thin film lithium niobite.

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