AI Article Synopsis

  • * This paper introduces a new quantum imaging technique that utilizes quantum compressed sensing to take advantage of the correlations between entangled photons and their random generation, allowing for more effective imaging.
  • * The proposed method successfully captures images of a target rotating at 10 kHz while achieving a significant data compression rate of 10, marking a significant step toward practical quantum imaging applications.

Article Abstract

Quantum imaging based on entangled light sources exhibits enhanced background resistance compared to conventional imaging techniques in low-light conditions. However, direct imaging of dynamic targets remains challenging due to the limited count rate of entangled photons. In this paper, we propose a quantum imaging method based on quantum compressed sensing that leverages the strong correlation characteristics of entangled photons and the randomness inherent in photon pair generation and detection. This approach enables the construction of a compressed sensing system capable of directly imaging high-speed dynamic targets. The results demonstrate that our system successfully achieves imaging of a target rotating at a frequency of 10 kHz, while maintaining an impressive data compression rate of 10. This proposed method introduces a pioneering approach for the practical implementation of quantum imaging in real-world scenarios.

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Source
http://dx.doi.org/10.1364/OE.517160DOI Listing

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