[1] [1] M. St′ephan, Sur l′exteme petitesse du diam′etre apparent des′etoiles fixes［J］. C.R.Acad.Sci.,1874,78,1008-1012.

[2] [2] Michelson A A. I. On the application of interference methods to astronomical measurements［J］. The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science,1890,30(182):1-21.

[3] [3] Brown R H, Jennison R C, Gupta M K D, et al. Apparent angular sizes of discrete radio sources: Observations at jodrell bank, manchester ［J］. Nature,1952,170(4338):1061-1063.

[4] [4] Brown R H, Twiss R Q. Correlation between photons in two coherent beams of light［J］. Nature,1956,177(4497):27-29.

[5] [5] Brown R H, Twiss R Q. The question of correlation between photons in coherent light rays［J］. Nature,1956,178(4548):1447-1448.

[6] [6] Tuthill P G. The narrabri stellar intensity interferometer: a 50th birthday tribute［C］∥Optical and Infrared Interferometry IV,Montréal,Canada:Proc.SPIE 9146,2014:101-107.

[7] [7] Tan P K, Chan A H, Kurtsiefer C. Optical intensity interferometry through atmospheric turbulence［J］. Monthly Notices of the Royal Astronomical Society,2016,457(4):4291-4295.

[8] [8] Brown R H. The intensity interferometer: its application to astronomy［M］. New York:Taylor and Francis,1974.

[9] [9] Le Bohec S, Daniel M, De Wit W J, et al. Stellar intensity interferometry with air Cherenkov telescope arrays［C］∥AIP Conference Proceedings, Tsukuba, Japan: American Institute of Physics,2008:205-215.

[10] [10] Dravins D, LeBohec S, Jensen H, et al. Stellar intensity interferometry: prospects for sub-milliarcsecond optical imaging［J］. New Astronomy Reviews,2012,56(5):143-167.

[11] [11] Bugaev V, Buckley J, Diegel S, et al. The Advanced Gamma-ray Imaging System (AGIS) telescope optical system designs［C］∥AIP Conference Proceedings, Tsukuba, Japan: American Institute of Physics,2008:205-215.

[12] [12] Capraro I, Barbieri C, Naletto G, et al. Quantum astronomy with Iqueye［C］∥ Quantum Information and Computation VIII.International Society for Optics and Photonics,Orlando,United States:Proc.SPIE 7702,2010,1-9.

[13] [13] Zampieri L, Naletto G, Barbieri C, et al. Intensity interferometry with Aqueye+ and Iqueye in Asiago［C］∥Optical and Infrared Interferometry and Imaging V, Edinburgh, United Kingdom: International Society for Optics and Photonics,2016,1-14.

[14] [14] Pilyavsky G, Mauskopf P, Smith N, et al. Single-photon intensity interferometry (spiify): utilizing available telescopes［J］. Monthly Notices of the Royal Astronomical Society,2017,467(3):3048-3055.

[15] [15] Labeyrie A. Attainment of diffraction limited resolution in large telescopes by Fourier analysing speckle patterns in star images［J］. Astronomy and astrophysics,1970,6:85-87.

[16] [16] Gezari D Y, Labeyrie A, Stachnik R V. Speckle interferometry: diffraction-limited measurements of nine stars with the 200-inch telescope［J］. The Astrophysical Journal,1972,173:1-5.

[17] [17] Knox K T, Thompson B J. Recovery of images from atmospherically degraded short-exposure photographs［J］. The Astrophysical Journal,1974,193:45-48.

[18] [18] Blazit A, Bonneau D, Koechlin L, et al. The digital speckle interferometer: preliminary results on 59 stars and 3C 273［J］. The Astrophysical Journal,1977,214:79-84.

[19] [19] Schmidt G D, Angel J R P, Harms R. Speckle interferometry with a linear digicon detector［J］. Publications of the Astronomical Society of the Pacific,1977,89(529):410-414.

[20] [20] Dainty J C . Laser speckle and related phenomena［M］. New York:Springer,1975:255-278.

[21] [21] Tokovinin A, Cantarutti R. First speckle interferometry at soar telescope with electron-multiplication ccd［J］. Publications of the Astronomical Society of the Pacific,2008,120(864):170-177.

[22] [22] Maksimov A F, Balega Y, Dyachenko V V, et al. The EMCCD-based speckle interferometer of the BTA 6-m telescope: Description and first results［J］. Astrophysical Bulletin,2009,64(3):296-307.

[23] [23] Horch E P, Howell S B, Everett M E, et al. Observations of binary stars with the differential speckle survey instrument. iv. observations of kepler, CoRoT, and hipparcos stars from the gemini north telescope［J］. The Astronomical Journal,2012,144(6):165,1-10.

[24] [24] Scott N J, Howell S B, Horch E P, et al. The NN-explore exoplanet stellar speckle imager: instrument description and preliminary results［J］. Publications of the Astronomical Society of the Pacific,2018,130(987):054502,1-17.

[25] [25] Matson R A, Howell S B, Ciardi D R. Detecting unresolved binaries in TESS data with speckle imaging［J］. The Astronomical Journal,2019,157(5):211,1-12.

[26] [26] Howell S B, Scott N J, Matson R A, et al. The NASA high-resolution speckle interferometric imaging program: validation and characterization of exoplanets and their stellar hosts［J］. Frontiers in Astronomy and Space Sciences,2021,8,1-9.

[27] [27] Surya A, Saha S K, Labeyrie A. Speckle imaging with hypertelescopes［J］. Monthly Notices of the Royal Astronomical Society,2014,443(1):852-859.

[28] [28] Liu Z, Shen X, Liu H, et al. Lensless wiener–khinchin telescope based on second-order spatial autocorrelation of thermal light［J］. Chinese Optics Letters,2019,17(9):091101,1-7.

[29] [29] Wang L, Feng S. Correlations and fluctuations in reflection coefficients for coherent wave propagation in disordered scattering media［J］. Physical Review B,1989,40(12):8284.

[30] [30] Osnabrugge G, Horstmeyer R, Papadopoulos I N, et al. Generalized optical memory effect［J］. Optica,2017,4(8):886-892.

[31] [31] Chu C, Liu Z, Chen M, et al. Wide-spectrum optical synthetic aperture imaging via spatial intensity interferometry［J］. arXiv preprint arXiv:2212.01036,2022.