The quantum satellite is a cornerstone towards practical free-space quantum network and overcomes the photon loss over large distance. However, challenges still exist including real-time all-location coverage and multi-node construction, which may be complemented by the diversity of modern drones. Here we demonstrate the first drone-based entanglement distribution at all-weather conditions over 200 meters (test field limited), and the Clauser-Horne-Shimony-Holt S-parameter exceeds 2.49, within 35 kg take-off weight. With symmetric transmitter and receiver beam apertures and single-mode-fiber-coupling technology, such progress is ready for future quantum network with multi-node expansion. This network can be further integrated in picture-drone sizes for plug-and-play local-area coverage, or loaded onto high-altitude drones for wide-area coverage, which adds flexibility while connecting to the existing satellites and ground fiber-based quantum network.
@article{arxiv.1905.09527,
title = {Drone-based all-weather entanglement distribution},
author = {Hua-Ying Liu and Xiao-Hui Tian and Changsheng Gu and Pengfei Fan and Xin Ni and Ran Yang and Ji-Ning Zhang and Mingzhe Hu and Yang Niu and Xun Cao and Xiaopeng Hu and Gang Zhao and Yan-Qing Lu and Zhenda Xie and Yan-Xiao Gong and Shi-Ning Zhu},
journal= {arXiv preprint arXiv:1905.09527},
year = {2020}
}