[1] [1] Edgar, M.P., Gibson, G.M., Padgett, M.J.: Principles and prospects for single-pixel imaging. Nat. Photonics 13(1), 13–20 (2019)

[2] [2] Lu, T., Qiu, Z., Zhang, Z., Zhong, J.: Comprehensive comparison of single-pixel imaging methods. Opt. Lasers Eng. 134, 106301 (2020)

[3] [3] Jiang, T., Bai, Y., Tan, W., Zhu, X., Huang, X., Nan, S., Fu, X.: Ghost imaging Lidar system for remote imaging. Opt. Express 31(9), 15107–15117 (2023)

[4] [4] Gong, W., Zhao, C., Yu, H., Chen, M., Xu, W., Han, S.: Threedimensional ghost imaging Lidar via sparsity constraint. Sci. Rep. 6(1), 26133 (2016)

[5] [5] Edgar, M.P., Gibson, G.M., Bowman, R.W., Sun, B., Radwell, N., Mitchell, K.J., Welsh, S.S., Padgett, M.J.: Simultaneous real-time visible and infrared video with single-pixel detectors. Sci. Rep. 5(1), 10669 (2015)

[6] [6] Greenberg, J., Krishnamurthy, K., Brady, D.: Compressive single-pixel snapshot X-ray diffraction imaging. Opt. Lett. 39(1), 111–114 (2014)

[7] [7] Zhang, A., He, Y., Wu, L., Chen, L., Wang, B.: Tabletop X-ray ghost imaging with ultra-low radiation. Optica 5(4), 374–377 (2018)

[8] [8] Chan, W.L., Charan, K., Takhar, D., Kelly, K.F., Baraniuk, R.G., Mittleman, D.M.: A single-pixel terahertz imaging system based on compressed sensing. Appl. Phys. Lett. 93(12), 121105 (2008)

[9] [9] Watts, C.M., Shrekenhamer, D., Montoya, J., Lipworth, G., Hunt, J., Sleasman, T., Krishna, S., Smith, D.R., Padilla, W.J.: Terahertz compressive imaging with metamaterial spatial light modulators. Nat. Photonics 8(8), 605–609 (2014)

[10] [10] Zuo, Y., Li, B., Zhao, Y., Jiang, Y., Chen, Y.C., Chen, P., Jo, G.B., Liu, J., Du, S.: All-optical neural network with nonlinear activation functions. Optica 6(9), 1132–1137 (2019)

[11] [11] Jiao, S., Feng, J., Gao, Y., Lei, T., Xie, Z., Yuan, X.: Optical machine learning with incoherent light and a single-pixel detector. Opt. Lett. 44(21), 5186–5189 (2019)

[12] [12] Jiao, S., Feng, J., Gao, Y., Lei, T., Yuan, X.: Visual cryptography in single-pixel imaging. Opt. Express 28(5), 7301–7313 (2020)

[13] [13] Zheng, P., Li, J., Li, Z., Ge, M., Zhang, S., Zheng, G., Liu, H.C.: Compressive imaging encryption with secret sharing meta-surfaces. Adv. Opt. Mater. 10(15), 2200257 (2022)

[14] [14] Sun, B., Edgar, M.P., Bowman, R., Vittert, L.E., Welsh, S., Bowman, A., Padgett, M.J.: 3D computational imaging with single-pixel detectors. Science 340(6134), 844–847 (2013)

[15] [15] Sun, M.J., Edgar, M.P., Gibson, G.M., Sun, B., Radwell, N., Lamb, R., Padgett, M.J.: Single-pixel three-dimensional imaging with time-based depth resolution. Nat. Commun. 7(1), 12010 (2016)

[16] [16] Jiang, W., Yin, Y., Jiao, J., Zhao, X., Sun, B.: 2,000,000 fps 2D and 3D imaging of periodic or reproducible scenes with singlepixel detectors. Photon. Res. 10(9), 2157–2164 (2022)

[17] [17] Zha, L., Meng, W., Shi, D., Huang, J., Yuan, K., Yang, W., Chen, Y., Wang, Y.: Complementary moment detection for tracking a fast-moving object using dual single-pixel detectors. Opt. Lett. 47(4), 870–873 (2022)

[18] [18] Sun, S., Liu, W.T., Lin, H.Z., Zhang, E.F., Liu, J.Y., Li, Q., Chen, P.X.: Multi-scale adaptive computational ghost imaging. Sci. Rep. 6(1), 37013 (2016)

[19] [19] Huang, J., Shi, D.: Multispectral computational ghost imaging with multiplexed illumination. J. Opt. 19(7), 075701 (2017)

[20] [20] Xu, Z.H., Chen, W., Penuelas, J., Padgett, M., Sun, M.J.: 1000 fps computational ghost imaging using LED-based structured illumination. Opt. Express 26(3), 2427–2434 (2018)

[21] [21] Balaguer, E.S., Carmona, P.L., Chabert, C., Pla, F., Lancis, J., Tajahuerce, E.: Low-cost single-pixel 3D imaging by using an LED array. Opt. Express 26(12), 15623–15631 (2018)

[22] [22] Kohno, Y., Komatsu, K., Tang, R., Ozeki, Y., Nakano, Y., Tanemura, T.: Ghost imaging using a large-scale silicon photonic phased array chip. Opt. Express 27(3), 3817–3823 (2019)

[23] [23] Fukui, T., Kohno, Y., Tang, R., Nakano, Y., Tanemura, T.: Single-pixel imaging using multimode fiber and silicon photonic phased array. J. Lightwave Technol. 39(3), 839–844 (2021)

[24] [24] Ferri, F., Magatti, D., Lugiato, L.A., Gatti, A.: Differential ghost imaging. Phys. Rev. Lett. 104(25), 253603 (2010)

[25] [25] Sun, B., Welsh, S.S., Edgar, M.P., Shapiro, J.H., Padgett, M.J.: Normalized ghost imaging. Opt. Express 20(15), 16892–16901 (2012)

[26] [26] Duarte, M.F., Davenport, M.A., Takhar, D., Laska, J.N., Sun, T., Kelly, K.F., Baraniuk, R.G.: Single-pixel imaging via compressive sampling. IEEE Signal Process. Mag. 25(2), 83–91 (2008)

[27] [27] Lyu, M., Wang, W., Wang, H., Wang, H., Li, G., Chen, N., Situ, G.: Deep-learning-based ghost imaging. Sci. Rep. 7(1), 17865 (2017)

[28] [28] Wang, F., Wang, C., Deng, C., Han, S., Situ, G.: Single-pixel imaging using physics enhanced deep learning. Photon. Res. 10(1), 104–110 (2022)

[29] [29] Wang, F., Wang, C., Chen, M., Gong, W., Zhang, Y., Han, S., Situ, G.: Far-field super-resolution ghost imaging with a deep neural network constraint. Light Sci. Appl. 11(1), 1 (2022)

[30] [30] Wu, H., Wang, C., Gong, W.: Ghost imaging via sparse structured illumination source. Opt. Express 26(4), 4183–4191 (2018)

[31] [31] Liu, C., Chen, J., Liu, J., Han, X.: High frame-rate computational ghost imaging system using an optical fiber phased array and a low-pixel APD array. Opt. Express 26(8), 10048–10064 (2018)

[32] [32] Lai, W., Lei, G., Meng, Q., Ma, Y., Cui, W., Shi, D., Liu, H., Wang, Y., Han, K.: Ghost imaging based on Fermat spiral laser array designed for remote sensing. Opt. Express 31(22), 36656–36667 (2023)

[33] [33] Chang, H., Chang, Q., Xi, J., Hou, T., Su, R., Ma, P., Wu, J., Li, C., Jiang, M., Ma, Y., Zhou, P.: First experimental demonstration of coherent beam combining of more than 100 beams. Photon. Res. 8(12), 1943–1948 (2020)

[34] [34] Wu, J., Ma, Y., Ma, P., Su, R., Li, C., Jiang, M., Chang, H., Ren, S., Chang, Q., Wang, T., Ren, B., Zhou, P.: Fiber laser coherent beam combination of 20 kW class high power output. Infrared Laser Eng. 50, 20210621 (2021)