In this paper, we propose a novel quantum-secured single-pixel imaging method that utilizes non-classical correlations of a photon pair. Our method can detect any attempts to deceive it by exploiting a non-classical correlation of photon pairs while rejecting strong chaotic light illumination through photon heralding. A security analysis based on polarization-correlation has been conducted, demonstrating that our method has improved security compared to existing quantum-secured imaging. More specifically, a partial deceiving attack, which sends a mixture of a true and a false signal, can be detected with our proposed analysis, while currently employed methods cannot. We also provide proof-of-principle demonstrations of our method and trustworthy images reconstructed using our security analysis. Our method can be developed using matured techniques used in quantum secure communication, thus offering a promising direction for practical applications in secure imaging.
@article{arxiv.2209.06365,
title = {Quantum-secured single-pixel imaging with enhanced security},
author = {Jaesung Heo and Junghyun Kim and Taek Jeong and Yong Sup Ihn and Duk Y. Kim and Zaeill Kim and Yonggi Jo},
journal= {arXiv preprint arXiv:2209.06365},
year = {2023}
}