Simulation Techniques of a Space-Borne Single-Photon Counting Imaging System

Zhongqiu Xia; Haizhi Song; Yanli Shi; Yongchao Zheng

doi:10.3788/LOP202259.1611001

[1] Kirmani A, Venkatraman D, Shin D et al. First-photon imaging[J]. Science, 343, 58-61(2014).

[2] Gariepy G, Krstajić N, Henderson R et al. Single-photon sensitive light-in-fight imaging[J]. Nature Communications, 6, 6021(2015).

[3] Shin D, Xu F H, Venkatraman D et al. Photon-efficient imaging with a single-photon camera[J]. Nature Communications, 7, 12046(2016).

[4] Li Z P, Ye J T, Huang X et al. Single-photon imaging over 200 km[J]. Optica, 8, 344-349(2021).

[5] Lunghi T, Barreiro C, Guinnard O et al. Free-running single-photon detection based on a negative feedback InGaAs APD[J]. Journal of Modern Optics, 59, 1481-1488(2012).

[6] Bu Y M, Du X P, Zeng Z Y et al. Research progress and trend analysis of non-scanning laser 3D imaging radar[J]. Chinese Optics, 11, 711-727(2018).

[7] Jo S, Kong H J, Bang H et al. High range precision laser radar system using a Pockels cell and a quadrant photodiode[J]. Applied Physics B, 122, 143(2016).

[8] Zhang P, Du X P, Zhao J G et al. High resolution flash three-dimensional LIDAR systems based on polarization modulation[J]. Applied Optics, 56, 3889-3894(2017).

[9] Shi Y L, Zhu H X, Yang X Y et al. InP-based free running mode single photon avalanche photodiode[J]. Infrared and Laser Engineering, 49, 0103005(2020).

[10] Ma Y R. Study on the influence of working parameters of photon counting lidar on detection performance[D], 7-11(2019).

[11] Jiang X D, Itzler M, O’Donnell K et al. InP-based single-photon detectors and Geiger-mode APD arrays for quantum communications applications[J]. IEEE Journal of Selected Topics in Quantum Electronics, 21, 5-16(2015).

[12] Comandar L C, Fröhlich B, Dynes J F et al. Gigahertz-gated InGaAs/InP single-photon detector with detection efficiency exceeding 55% at 1550 nm[J]. Journal of Applied Physics, 117, 083109(2015).

[13] Liu K B, Yang X H, He T T et al. Indium phosphide-based near-infrared single photon avalanche photodiode detector arrays[J]. Laser & Optoelectronics Progress, 56, 220001(2019).

[14] Seitz P, Theuwissen A J P[M]. Single-photon imaging, 240-250(2015).

[15] Li S, Zhang Z Y, Zeng H M et al. Assessment method of the influence of the speckle on single photon LIDAR range accuracy[P].

[16] Becker W[M]. Advanced time-correlated single photon counting techniques(2005).

[17] Jin Y Q, Dong R F, Quan R A et al. Temporal filtering characteristics of gated InGaAs/InP single-photon detectors for coincidence measurement[J]. Acta Physica Sinica, 70, 074202(2021).

[18] Li M L, Gao L, Shi W Z et al. Progress in all-solid-state single-frequency lasers[J]. Laser & Optoelectronics Progress, 53, 080003(2016).

[19] Wang C H, Li X, Peng H. Research on simulation and analysis of spaceborne full waveform laser altimeter[J]. Laser & Optoelectronics Progress, 52, 102801(2015).

[20] Yu Z Z, Hou X, Zhou C Y. Progress and current state of space-borne laser altimetry[J]. Laser & Optoelectronics Progress, 50, 020006(2013).

[21] Liu J, Yao Y M, Li P N et al. Parameter optimization wavelet denoising algorithm for full-waveforms data of laser altimetry satellite[J]. Chinese Journal of Lasers, 48, 2310001(2021).

[22] Liu F H, He Y, Luo Y et al. Moving target distance and velocity measurement system based on photo-counting lidar[J]. Chinese Journal of Lasers, 48, 1310001(2021).

[23] Zhou X, Yang J, Li S. Model of sea surface echos from spaceborne single photon lidar[J]. Acta Optica Sinica, 41, 1928002(2021).