[1] Dengxin Hua, Jun Wang. The research progress of ocean laser remote sensing technology(invited). Infrared and Laser Engineering, 47, 0903003(2018).

[2] Mingsen Lin, Xianqiang He, Yongjun Jia, et al. Progress of ocean satellite remote sensing technology in China. Acta Oceanographica Sinica, 41, 99-112(2019).

[3] Xiaobin Yin, Zhenzhan Wang, Yuguang Liu, et al. Comparison of sea surface temperature retrieved by infrared and microwave radiometers. Ocean Bulletin, 11, 1-12(2009).

[4] Xiaolei Yu, Zhaocong Wu. Retrieval of Bohai sea surface temperature using thermal infrared image of HJ-1 satellite. Ocean Technology, 5-10(2011).

[5] [5] Yin Xiaobin. Passive microwave remote sensing of sea surface wind vect, temperature salinity the influence of wind on temperature Salinity Remote Sensing[D]. Qingdao: Ocean University of China, 2007. (in Chinese)

[6] Qingxia Li, Jing Zhang, Wei Guo, et al. Research progress of remote sensing ocean salinity by microwave radiometer. Ocean Technology, 26, 62-67(2007).

[7] Xiuyun Ren, Ling Wang, Zhaoshuo Tian, et al. Study on practical underwater temperature telemetry system based on Raman spectroscopy. Spectroscopy and Spectral Analysis, 39, 120-125(2019).

[8] [8] Zhang Xuejuan. Research on seawater salinity measurement technology based on Raman scattering[D]. Harbin: Harbin Institute of Technology, 2017. (in Chinese)

[9] E S Fry, Y Emery, X Quan, et al. Accuracy limitations on Brillouin lidar measurements of temperature and sound speed in the ocean. Applied Optics, 36, 6887-6894(1997).

[10] E Fry, J Katz, D Liu, et al. Temperature dependence of the Brillouin linewidth in water. Journal of Modern Optics, 49, 411-418(2002).

[11] D Liu, J Xu, R Li, et al. Measurements of sound speed in the water by Brillouin scattering using pulsed Nd: YAG laser. Optics Communications, 203, 335-340(2002).

[12] W Gao, Z Lv, Y Dong, et al. A new approach to measure the ocean temperature using Brillouin lidar. Chinese Optics Letters, 4, 428-431(2006).

[13] Y Yuan, Q Niu, K Liang. Measurement error analysis of Brillouin lidar system using F–P etalon and ICCD. Optics Communications, 375, 58-62(2016).

[14] K Liang, Y Ma, Y Yu, et al. Research on simultaneous measurement of ocean temperature and salinity using Brillouin shift and linewidth. Optical Engineering, 51, 066002(2012).

[15] Y Yu, Y Ma, H Li, et al. Simulation on simultaneously obtaining ocean temperature and salinity using dual-wavelength Brillouin Lidar. Laser Physics Letters, 11, 036001(2014).

[16] J Xu, X Ren, W Gong, et al. Measurement of the bulk viscosity of liquid by Brillouin scattering. Applied Optics, 42, 6704-6709(2003).

[17] E Fry, J Katz, D Liu, et al. Temperature dependence of the Brillouin linewidth in water. Journal of Modern Optics, 10, 411-418(2010).

[18] J G Hirschberg, J D Byrne, A W Wouters, et al. Speed of sound and temperature in the ocean by Brillouin scattering. Applied Optics, 23, 2624-2628(1984).

[19] [19] Emery Y, Fry E. Labaty development of a lidar f measurement of sound velocity in the ocean using Brillouin scattering[C]Proceedings of SPIE the International Society f Optical Engineering, 1997, 2963: 210215.

[20] R Dai, W Gong, J Xu, et al. The edge technique as used in Brillouin lidar for remote sensing of the ocean. Applied Physics B, Lasers and Optics, B79, 245-248(2004).

[21] A Rudolf, T Walther. High-transmission excited-state Faraday anomalous dispersion optical filter edge filter based on a Halbach cylinder magnetic-field configuration. Optics Letters, 37, 4477-4479(2012).

[22] A Rudolf, T Walther. Laboratory demonstration of a Brillouin lidar to remotely measure temperature profiles of the ocean. Optical Engineering, 53, 051407(2014).

[23] J Shi, M Ouyang, W Gong, et al. A Brillouin lidar system using F-P etalon and ICCD for remote sensing of the ocean. Applied Physics B: Lasers and Optics, 90, 569-571(2008).

[24] J Huang, Y Ma, B Zhou, et al. Processing method of spectral measurement using F-P etalon and ICCD. Optics Express, 20, 18568(2012).

[25] K Liang, R Zhang, Q Sun, et al. Brillouin shift and linewidth measurement based on double-edge detection technology in seawater. Applied Physics B, 126, 160(2020).

[26] S Kai, P Alexandru, G Marco, et al. Remote water temperature measurements based on Brillouin scattering with a frequency doubled pulsed Yb: doped fiber amplifier. Sensors, 8, 5820-5831(2008).