Ultralow-threshold thin-film lithium niobate optical parametric oscillator
Abstract
Materials with strong (2) optical nonlinearity, especially lithium niobate, play a critical role in building optical parametric oscillators (OPOs). However, chip-scale integration of low-loss (2) materials remains challenging and limits the threshold power of on-chip (2) OPO. Here we report the first on-chip lithium niobate optical parametric oscillator at the telecom wavelengths using a quasi-phase matched, high-quality microring resonator, whose threshold power (30 μW) is 400 times lower than that in previous (2) integrated photonics platforms. An on-chip power conversion efficiency of 11% is obtained at a pump power of 93 μW. The OPO wavelength tuning is achieved by varying the pump frequency and chip temperature. With the lowest power threshold among all on-chip OPOs demonstrated so far, as well as advantages including high conversion efficiency, flexibility in quasi-phase matching and device scalability, the thin-film lithium niobate OPO opens new opportunities for chip-based tunable classical and quantum light sources and provides an potential platform for realizing photonic neural networks.
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