[1] [1] Pittman T B,Shih Y H,Strekalov D V,et al.Optical imaging by means of two-photon quantum entanglement［J］.Physical Review A,1995,52(5):R3429—R3432.

[2] [2] Gatti A,Brambilla E,Bache M,et al.Ghost imaging with thermal light:comparing entanglement and classical correlation［J］.Phy.Rev.Lett,2004,93:093602.

[3] [3] Valencia A,Scarcelli G,Angelo M,and et al.Two-photon imaging with thermal light［J］.Phy.Rev.Lett,2005,94:063601.

[4] [4] M H Zhang,Q Wei,X Shen,et al.Cheng,and S.S.Han.Lensless fourier-transform ghost imaging with classical incoherent light［J］.Phy.Rev.A,2007,75,021803(R) .

[5] [5] X F Liu,X H Chen,X R.Y et al.Lensless ghost imaging with sunlight［J］.Opt.Lett,2014,39:2314—2317.

[6] [6] L Basano,P Ottonello.Experiment in lensless ghost imaging with thermal light［J］.Appl.Phys.Lett,2006,89,091109.

[7] [7] A X Zhang,Y H He,L A Wu,L M Chen,B B Wang.Tabletop x-ray ghost imaging with ultra-low radiation［J］.Optica,2018,5:374—377.

[8] [8] M Q Li,R M Lan,X F.et al.Acoustical ghost imaging［J］.Appl.Phys.Lett,2020,117,084102.

[9] [9] J Cheng.Ghost imaging through turbulent atmosphere［J］.Opt.Express,2009,17,7916.

[10] [10] R E Meyers,K S Deacon,Y Shin.Turbulence-free ghost imaging ［J］.Appl.Phys.Lett,2011,98,041801—342.

[11] [11] Xihao Chen,Fanhui Kong,Qiang Fu,et al.Sub-rayleigh resolution ghost imaging by spatial low-pass filtering［J］.Optics Letters,2017,42:5290.

[12] [12] C J Deng,W L Gong,S S Han.Pulse-compression ghost imaging lidar via coherent detection［J］.Optics Express,2016,24:25983—25994.

[13] [13] L Olivieri,J S T Gongora,L Peters,et al.Pasquazi,and M.Peccianti.Hyperspectral terahertz microscopy via nonlinear ghost imaging ［J］.Optica,2020,7:186—191.

[14] [14] T Shirai,T Set l,A T Friberg.Temporal ghost imaging with classical non-stationary pulsed light［J］.J.Opt.Soc.Am.B,2010,27:2549—2555.

[15] [15] Cho K,Noh J.Temporal ghost imaging of a time object,dispersion cancelation,and nonlocal time lens with bi-photon state［J］.Optics Communications,2012,285(6):1275—1278.

[16] [16] P Ryczkowski,M Barbier,A T Friberg,et al.Ghost imaging in the time domain［J］.Nat.Photonics,2015,10:167—170.

[17] [17] Yaokun Xu,Shihai Sun,Weitao Liu,et al.Detecting fast signals beyond bandwidth of detectors based on computational temporal ghost imaging［J］.Opt.Express,2018,26:99—107.

[18] [18] Meng Wenwen,Shi Dongfeng,Yuan Kee,et al.Fourier-temporal ghost imaging［J］.Optics and Lasers in Engineering,2020,134,106294.

[19] [19] H Huang,C Hu,S Yang,et al.Temporal ghost imaging by means of fourier spectrum acquisition［J］.IEEE Photonics Journal,2020,12:1—12.

[20] [20] F Devaux,P A Moreau,S Denis,et al.Computational temporal ghost imaging［J］.Optica,2016,3:698—701.

[21] [21] M Jin,Z Qian,X Chen,et al.Signal transmission of 4 GHz beyond the system bandwidth in UV-C LED communication based on temporal ghost imaging［J］.Chinese Optics Letters,2021,19(11):110602.

[22] [22] Sun Baoqing,Wang Yupeng.Temporal ghost imaging and its application［J］.Chinese Journal of Lasers,2021,48(12):1212001.

[23] [23] Y Wang,W Jiang,H Chen,et al.Sun.Ultra-high frequency signal transmission based on temporal ghost imaging［J］.Journal of Lightwave Technology,2022,40(16):5426—5431.

[24] [24] E J Candès,M B Wakin.An introduction to compressive sampling［J］.IEEE Signal Process,2008,25(2):21—30.

[25] [25] E J Candès.Compressive sampling［M］.Madrid:Proceedings of the International Congress of Mathematicians,2006:1—20.

[26] [26] D Donoho.Compressed sensing［J］.IEEE Trans.Inf.Theory,2006,52:1289—1306.

[27] [27] C Li.An efficient algorithm for total variation regularization with applications to the single pixel camera and compressive sensing ［J］.Diss.Theses Gradworks,2011,8:22.