Thin-film lithium niobate (TFLN) waveguides provide a flexible platform for classical and quantum photonics. Their tight optical confinement enables strong nonlinear coupling, dispersion engineering for broadband interactions, passive components such as filters and high-Q resonators, low-voltage high-speed electro-optic devices, and tight-radius bends for dense integration. The performance of TFLN devices will be compared with that obtained in conventional weakly guiding waveguides, with a focus on quantum frequency conversion, heralded single photon sources, and progress towards few-photon nonlinear interactions.
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