[1] Bender P L, Currie D G, Poultney S K, et al. The lunar laser ranging experiment[J]. Science, 1973, 182(4109): 229-238.

[2] Alley CO, Bender PL, Chang RF, et al. Laser ranging retroreflector[R]. Washington:NASA, 1969, 214: 163- 182.

[3] Turyshev S G, Williams J G, Folkner W M, et al. Corner-cube retro-reflector instrument for advanced lunar laser ranging[J]. Experimental Astronomy, 2013, 36(1/2): 105-135.

[4] Silverberg E C. Operation and performance of a lunar laser ranging station[J]. Applied Optics, 1974, 13(3): 565-574.

[5] Gilpin D.Princeton, Apollo 11, GPS technology: vital connections that changed the world[EB/OL]. ( 2019-07-03)[2020-05-25]. http:∥www.towntopics.com/wordpress/2019/07/03/princeton-apollo-11-and-gps-technology-vital-connections-that-changed-the-world/.

[6] Smullin L D, Fiocco G. Optical echoes from the moon[J]. Nature, 1962, 194(4835): 1267.

[7] Alley C O, Chang R F, Currie D G, et al. Laser ranging retro-reflector: continuing measurements and expected results[J]. Science, 1970, 167(3918): 458-460.

[8] Dickey J O, Bender P L, Faller J E, et al. Lunar laser ranging: a continuing legacy of the Apollo program[J]. Science, 1994, 265(5171): 482-490.

[9] Courde C, Torre J M, Samain E, et al. Lunar laser ranging in infrared at the Grasse laser station[J]. Astronomy & Astrophysics, 2017, 602: A90.

[10] 潘厚任. 简谈“阿波罗”登月骗局之争: 阿波罗-11登月40周年[J]. 国际太空, 2009( 11): 15- 20.

    Pan HR. Brief discussion about Moon landing conspiracy:40th Anniversary of Apollo 11 Moon landing[J]. Space International, 2009( 11): 15- 20.

[11] 华阳, 黄乘利. 月球激光测距观测与研究进展[J]. 天文学进展, 2012, 30(3): 378-393.

    Hua Y, Huang C L. On the observation and research of lunar laser ranging[J]. Progress in Astronomy, 2012, 30(3): 378-393.

[12] 李语强, 伏红林, 李荣旺, 等. 云南天文台月球激光测距研究与实验[J]. 中国激光, 2019, 46(1): 0104004.

    Li Y Q, Fu H L, Li R W, et al. Research and experiment of lunar laser ranging in Yunnan observatories[J]. Chinese Journal of Lasers, 2019, 46(1): 0104004.

[13] Samain E, Mangin J F, Veillet C, et al. Millimetric Lunar Laser Ranging at OCA (Observatoire de la Côte d'Azur)[J]. Astronomy and Astrophysics Supplement Series, 1998, 130(2): 235-244.

[14] Murphy T W. Jr, Adelberger E G, Battat J B R, et al. Laser ranging to the lost Lunokhod 1 reflector[J]. Icarus, 2011, 211(2): 1103-1108.

[15] Müller J, Murphy T W, Schreiber U, et al. Lunar Laser Ranging: a tool for general relativity, lunar geophysics and Earth science[J]. Journal of Geodesy, 2019, 93(11): 2195-2210.

[16] Murphy TW, Jr, Adelberger E G, Battat J B, et al. Absolute calibration of LLR signal: reflector health status[C]∥Proceedings of the 15th International Workshop on Laser Ranging, Canberra: Australia, 2006.

[17] Jefferys WH, Ries JG. Bayesian analysis of lunar laser ranging data[M] ∥Statistical Challenges in Modern Astronomy II. New York: Springer, 1997: 49- 65.

[18] Ricklefs RL, Shelus PJ. Poisson filtering of laser ranging data[C]∥Proceedings of the Eighth International Workshop on Laser Ranging Instrumentation, Washington:NASA, 1993, 3214: 9.

[19] Märki A. Lunar laser ranging: a review[EB/OL]. ( 2018-05-15)[2020-05-25]. https:∥www.researchgate.net/publication/292130269_Lunar_Laser_Ranging_A_Review[LinkOut].

[20] Abbot R I, Shelus P J, Mulholland J D, et al. Laser observations of the Moon: identification and construction of normal points for 1969--1971[J]. The Astronomical Journal, 1973, 78: 784-793.

[21] Murphy T W. Lunar laser ranging: the millimeter challenge[J]. Reports on Progress in Physics, 2013, 76(7): 076901.

[22] Pellegrini S, Buller G S, Smith J M, et al. Laser-based distance measurement using picosecond resolution time-correlated single-photon counting[J]. Measurement Science and Technology, 2000, 11(6): 712-716.

[23] Murphy T W, Adelberger E G. Battat J B R, et al. The apache point observatory lunar laser-ranging operation: instrument description and first detections[J]. Publications of the Astronomical Society of the Pacific, 2008, 120(863): 20-37.

[24] Murphy T W. Jr, Adelberger E G, Battat J R, et al. APOLLO: millimeter lunar laser ranging[J]. Classical and Quantum Gravity, 2012, 29(18): 184005.

[25] Murphy T W. Jr, Adelberger E G, Battat J B R, et al. Long-term degradation of optical devices on the Moon[J]. LCARUS, 2010, 208(1): 31-35.

[26] Battat J B R, Murphy T W, Adelberger E G, et al. The apache point observatory lunar laser-ranging operation (APOLLO): two years of millimeter-precision measurements of the earth-moon Range1[J]. Publications of the Astronomical Society of the Pacific, 2009, 121(875): 29-40.

[27] Gardner C S. Effects of random path fluctuations on the accuracy of laser ranging systems[J]. Applied Optics, 1976, 15(10): 2539-2545.

[28] Kral L, Prochazka I, Hamal K. Optical signal path delay fluctuations caused by atmospheric turbulence[J]. Optics Letters, 2005, 30(14): 1767-1769.

[29] Kral L, Prochazka I, Hamal K. Random fluctuations of optical signal path delay in the atmosphere[J]. Proceedings of SPIE, 2006, 6364: 63640M.

[30] Currie D, Prochazka I. Lunar laser ranging and limits due to the Earth’s atmosphere[J]. Proceedings of SPIE, 2015, 9614: 96140C.

[31] Preston A, Merkowitz S. Next-generation hollow retroreflectors for lunar laser ranging[J]. Applied Optics, 2013, 52(36): 8676-8684.