Quantum LiDAR with non-local modulation
摘要
Quantum light detection and ranging (LiDAR) utilizes quantum entanglement and correlation to improve precision, noise resilience and covertness of target detection. Despite recent advances, the development of a quantum LiDAR system that simultaneously achieves high precision and a large measurement range remains challenging. Here, we demonstrate a quantum amplitude-modulated continuous wave LiDAR with micrometer precision achievable via increased acquisition time and meter-scale measurement range. In our demonstration, the signal photons directly illuminate the target, while the idler photons are non-locally modulated with a high-frequency cosine wave and never interact with the target. By leveraging the non-local modulation and the quantum correlation, the target detection is achieved with a precision of 0.64 0.06 mm within one second over a measurement range of 2-8 m. As the acquisition time is up to 500 s, the system achieves a precision of 29 . Furthermore, our system realizes a 50 times precision improvement over the classical single-photon scheme in a background noise 37 dB stronger than the returned probe photons. With these advantages, our method will open venues for the development of high-precision, long-range, and noise-resilient target detection.
引用
@article{arxiv.2606.27838,
title = {Quantum LiDAR with non-local modulation},
author = {Xiao-Dong Fan and Zhong-Hua Ou and Yun-Ru Fan and Kai Guo and Zong-Liang Xie and Qiang Qi and Li-Xun Zhang and Si Shen and Hai-Zhi Song and Yan-Yu Wei and Hao Li and Li-Xing You and Qi Zhang and Yong Liu and Guang-Can Guo and Qiang Zhou},
journal= {arXiv preprint arXiv:2606.27838},
year = {2026}
}