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5 November 2020 Performance analysis of Gaussian entangled quantum illumination target detection
Shi-long Xu, Yi-hua Hu, Wu-hu Lei
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Proceedings Volume 11564, AOPC 2020: Optoelectronics and Nanophotonics; and Quantum Information Technology; 115640M (2020) https://doi.org/10.1117/12.2579812
Event: Applied Optics and Photonics China (AOPC 2020), 2020, Beijing, China
Abstract
Quantum illumination makes use of the strong correlation between entangled photons, making it possible to detect targets that break through physical limits. The Gaussian entangled state is a continuous variable entangled state with a high number of Hilbert spatial modes, which is currently a viable alternative to quantum lighting. In order to explore the target detection ability of Gaussian entangled state, this paper starts from the Gaussian entanglement model of Lloyd, establishes the target detection error probability boundary model under Gaussian entangled quantum illumination, and explores the optimal detection condition of Gaussian entangled state based on the detection signal-to-noise ratio and the number of measurements. The results show that when the Gaussian entangled state is optimal for the coherent state, the number of measurements is inversely proportional to the signal-to-noise ratio. Under the same error probability, the difference between the detection distances of the two states is determined by the atmospheric attenuation coefficient. The smaller the attenuation coefficient is, the smaller the attenuation coefficient is, the difference is greater.
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Shi-long Xu, Yi-hua Hu, and Wu-hu Lei "Performance analysis of Gaussian entangled quantum illumination target detection", Proc. SPIE 11564, AOPC 2020: Optoelectronics and Nanophotonics; and Quantum Information Technology, 115640M (5 November 2020); https://doi.org/10.1117/12.2579812
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KEYWORDS
Target detection
Signal to noise ratio
Entangled states
Signal attenuation
Photons
Light sources and illumination
Radar
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