A Highly Efficient and Pure Few-Photon Source on Chip
Abstract
We report on multi-photon statistics of correlated twin beams produced in a periodic poled micro-ring resonator on thin-film lithium niobate. Owing to high cavity confinement and near perfect quasi-phase matching, the photons pairs are produced efficiently in single modes at rates reaching 27 MHz per W pump power. By using a pump laser whose pulse width impedance matches with the cavity, those photons are further created in single longitudinal modes with purity reaching 99\%, without relying on later-on filtering. With a dual-channel photon-number resolving detection system, we obtain directly the joint detection probabilities of multi-photon states up to three photons, with high coincidence to accidental contrast for each. Used as a single photon source, it gives heralded around 0.04 at a single photon rate of 650 kHz on chip. The findings of our research highlight the potential of this nanophotonic platform as a promising platform for generating non-classical, few-photon states with ideal indistinguishability, for fundamental quantum optics studies and information applications.
Cite
@article{arxiv.2309.15233,
title = {A Highly Efficient and Pure Few-Photon Source on Chip},
author = {Zhaohui Ma and Jia-Yang Chen and Malvika Garikapati and Zhan Li and Chao Tang and Yong Meng Sua and Yu-Ping Huang},
journal= {arXiv preprint arXiv:2309.15233},
year = {2023}
}
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7 pages