[1] Shang Z, Xie C B, Wang B X et al. Pure rotational Raman lidar measurements of atmospheric temperature near ground in Beijing[J]. Infrared and Laser Engineering, 46, 126-133(2017).

[2] Tang J. Research on Raman Lidar for Atmospheric Temperature and Humidity Profiles[D](2012).

[3] Cooney J. Measurement of atmospheric temperature profiles by Raman backscatter[J]. Journal of Applied Meteorology (1962, 1972, 108-112(1982).

[4] Radlach M, Behrendt A, Wulfmeyer V. Scanning rotational Raman lidar at 355 nm for the measurement of tropospheric temperature fields[J]. Atmospheric Chemistry and Physics, 8, 159-169(2008).

[5] Wang Q M, Zhang Y M. Development of meteorological lidar[J]. Meteoroloical Science and Technology, 34, 246-249(2006).

[6] Wang G, Wang S F. A measuring method of atmosphere temperature by lidar[J]. Laser Journal, 25, 52-54(2004).

[7] Hammann E, Behrendt A, Le Mounier F et al. Temperature profiling of the atmospheric boundary layer with rotational Raman lidar during the HD(CP)2 observational prototype experiment[J]. Atmospheric Chemistry & Physics, 15, 2867-2881(2015).

[8] Filioglou M, Nikandrova A, Niemelä S et al. Profiling water vapor mixing ratios in finland by means of a Raman lidar, a satellite and a model[J]. Atmospheric Measurement Techniques, 10, 4303-4316(2017).

[9] Behrendt A, Nakamura T, Onishi M et al. Combined Raman lidar for the measurement of atmospheric temperature, water vapor, particle extinction coefficient, and particle backscatter coefficient[J]. Applied Optics, 41, 7657-7666(2002).

[10] Balin I, Serikov I, Bobrovnikov S et al. Simultaneous measurement of atmospheric temperature, humidity, and aerosol extinction and backscatter coefficients by a combined vibrational-pure-rotational Raman lidar[J]. Applied Physics B, 79, 775-782(2004).

[11] Totems J, Chazette P, Shang X X et al. Water vapor measurements by mobile Raman lidar over the Mediterranean Sea in the framework of HyMex: Application to multi-platform validation of moisture profiles[J]. EPJ Web of Conferences, 119, 26006(2016).

[12] Gao F, Huang B, Shi D C et al. Design and simulation of pure rotational Raman lidar system for daytime detection of atmospheric temperature[J]. Acta Optica Sinica, 39, 0301004(2019).

[13] Xu B Q, Han Y, Xu W J et al. Design and simulation of Raman lidar with small field of view for atmospheric temperature and humidity detection[J]. Infrared and Laser Engineering, 50, 20200410(2021).

[14] Brandmuller J. Rayleigh-streuung und rotations-Raman-effekt von flussigkeiten[J]. Zeitschrift für Physik, 140, 75-91(1955).

[15] Qin S G. The Grating Receiver Technology Experiment Research of Atmosphere Lidar[D](2012).

[16] Avila G, Fernández J M, Maté B et al. Ro-vibrational Raman cross sections of water vapor in the OH stretching region[J]. Journal of molecular spectroscopy, 196, 77-92(1999).

[17] Simeonov V, Dinoev T, Serikov I et al. Automated Raman lidar for day and night operational observation of tropospheric water vapor for meteorological applications[C](2009).

[18] Wang G Y. Research on High-Precision Atmospheric Temperature and Water Vapor Profile by Combing Raman Lidar with Microwave Radiometer[D](2020).

[19] Whiteman D N, Melfi S H, Ferrare R A. Raman lidar system for the measurement of water vapor and aerosols in the Earth's atmosphere[J]. Applied Optics, 31, 3068-3082(1992).

[20] Deng P, Zhang T S, Liu J G et al. Comparative analysis of the middle atmospheric parameters observed by 532 nm and.