23 December 2017 Entangled-photons compressive ghost imaging based on spatial correlation of sensing matrix
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Abstract
Using the entangled photons generated by the spontaneous parametric down conversion as a light source, we demonstrate the first quantum ghost imaging system with a modified compressive sensing technique based on the spatial correlation of sensing matrix (SCCS). The ghost image is achieved at 16.27% sampling ratio of raster scanning and 0.65    photons / pixel at each measurement on average. Our results show that image quality and photon-utilization efficiency are remarkably enhanced in comparison with the traditional compressive imaging technique, due to the sensing matrix and noise-free measurement vector rebuilt by SCCS technique. It suggests the great potential of SCCS technique applied in quantum imaging and other quantum optics fields, such as quantum charactering and quantum state tomography to use the information loaded in each photon with high efficiency.
© 2017 Society of Photo-Optical Instrumentation Engineers (SPIE)
Dawei Liu, Dawei Liu, Lifei Li, Lifei Li, Yixing Geng, Yixing Geng, Yan Kang, Yan Kang, Tongyi Zhang, Tongyi Zhang, Wei Zhao, Wei Zhao, Weibin Dong, Weibin Dong, Kunlin Shi, Kunlin Shi, } "Entangled-photons compressive ghost imaging based on spatial correlation of sensing matrix," Optical Engineering 56(12), 123108 (23 December 2017). https://doi.org/10.1117/1.OE.56.12.123108 . Submission: Received: 22 September 2017; Accepted: 30 November 2017
Received: 22 September 2017; Accepted: 30 November 2017; Published: 23 December 2017
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