First experimental realization of SPDC photon-pair sources on TFLT achieving 2.1 GHz mW^{-1} efficiency, CAR up to 3.8e5, g2_H(0)=0.0018, 98.9% entanglement visibility, and 11 GHz mW^{-1} GHz^{-1} spectral brightness in resonators.
Integrated photon-pair sources on periodically poled thin-film lithium tantalate
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abstract
Chip-integrated photon-pair sources based on spontaneous parametric down-conversion (SPDC) have emerged as a promising solution for scalable quantum light generation. Thin-film lithium tantalate (TFLT) is a compelling $\chi^{(2)}$ platform, combining strong nonlinearity with a high optical-damage threshold, weak photorefractive response, and ferroelectricity that enables quasi-phase matching. However, SPDC-based photon-pair generation on TFLT has not yet been demonstrated. Here, we combine high-quality periodic poling with low-loss nanophotonic waveguides to realize photon-pair sources on TFLT in both traveling-wave and resonant configurations. In periodically poled straight waveguides, we achieve broadband photon-pair generation with high efficiency ($2.1~\mathrm{GHz}~\mathrm{mW}^{-1}$) and coincidence-to-accidental ratio (up to $3.8\times10^{5}$). We further confirm high-purity single-photon operation via heralded second-order correlation ($g^{(2)}_\mathrm{H}(0) = 0.0018 \pm 0.0002$) and high-fidelity time-energy entanglement through Franson interference (visibility of $98.9 \pm 0.5\%$). In periodically poled racetrack resonators, we map out a broad quantum frequency comb spanning the telecom C- and L-bands. By isolating individual frequency-correlated pairs, we measure a high spectral brightness of $11~\mathrm{GHz}~\mathrm{mW}^{-1}~\mathrm{GHz}^{-1}$. These results are competitive with the state of the art across $\chi^{(2)}$ integrated platforms, positioning TFLT as a strong contender for integrated quantum light sources, with applications in wavelength-multiplexed quantum communications and photonic quantum information processing.
fields
physics.optics 1years
2026 1verdicts
UNVERDICTED 1representative citing papers
citing papers explorer
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Integrated photon-pair sources on periodically poled thin-film lithium tantalate
First experimental realization of SPDC photon-pair sources on TFLT achieving 2.1 GHz mW^{-1} efficiency, CAR up to 3.8e5, g2_H(0)=0.0018, 98.9% entanglement visibility, and 11 GHz mW^{-1} GHz^{-1} spectral brightness in resonators.