Xin Yao, Wei Zhang, Yidong Huang. Long-Distance Temporal Ghost Imaging over Optical Fibers Based on Frequency Correlation[J]. Laser & Optoelectronics Progress, 2021, 58(10): 1011007
- Laser & Optoelectronics Progress
- Vol. 58, Issue 10, 1011007 (2021)
Fig. 1. Schematic illustration of quantum temporal ghost imaging based on frequency correlation
![The experimental results of quantum temporal ghost imaging[32]. (a) A typical coincidence count histogram; (b) two-dimensional imaging by step-moving the object](/richHtml/lop/2021/58/10/1011007/img_2.jpg)
Fig. 2. The experimental results of quantum temporal ghost imaging[32]. (a) A typical coincidence count histogram; (b) two-dimensional imaging by step-moving the object
![Thermal temporal ghost imaging[33]. (a) The schematic illustration of thermal temporal ghost imaging; (b) the coincidence count peak changes versus the filter’s bandwidth; (c) the coincidence count peak moves versus the filter’s center-wavelength](/Images/icon/loading.gif){kind=icon}
Fig. 3. Thermal temporal ghost imaging[33]. (a) The schematic illustration of thermal temporal ghost imaging; (b) the coincidence count peak changes versus the filter’s bandwidth; (c) the coincidence count peak moves versus the filter’s center-wavelength
Fig. 4. The illustration of quantum secure ghost imaging[40]
Fig. 5. Quantum secure ghost imaging[40]. (a) The signal-to-ratio (SNR) of Bob’s image versus the photon records sent by Alice, the inset corresponds to the SNR threshold of the recognizable image; (b) Bob’s image when the visibility of the interference fringe decreases by 2%; (c) Eve’s image when the visibility of the interference fringe decreases by 2%
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