[1] Liptak D C, Reber J C, Maguire J F, et al. On the development of a confocal Rayleigh-Brillouin microscope [J]. Review of Scientific Instruments, 2007, 78: 016106.
[2] Yamaguchi M, Yagi T, Azuhata T, et al. Brillouin scattering study of gallium nitride: Elastic stiffness constants [J]. Journal of Physics, 1997, 9(1): 241-248.
[3] Yamaguchi M, Yagi T, Sota T, et al. Brillouin scattering study of bulk GaN [J]. Journal of Applied Physics, 1999, 85(12): 8502-8504.
[4] Bi Weihong, Yang Xipeng, Li Jingyang, et al. Forward and backward Raman amplification of Brillouin scattering signal in Brillouin optical time domain reflectometer system [J]. Chinese J Lasers, 2014, 41(12): 1215007.
[5] Zhang Cong, Yu Wenfeng, Li Zhenglin, et al. Numerical study on scattering properties for the stimulated Brillouin scattering fiber [J]. Acta Optica Sinica, 2015, 35(3): 0319005.
[6] Speziale S, Marquardt H, Duffy T S. Brillouin scattering and its application in Geosciences [J]. Reviews in Mineralogy Geochemistry, 2014, 78: 543-603.
[7] Mock R, Hillebrands B, Sandercock R. Construction and performance of a Brillouin scattering set-up using a triple-pass tandem Fabry-Perot interferometer [J]. Journal of Physics E, 1987, 20(6): 656-659.
[8] Sanderock J R. Simple stabilization scheme for maintenance of mirror alignment in a scanning Fabry-Perot interferometer [J]. Journal of Physics E, 1976, 9(7): 566-569.
[9] Stoddart P R, Crowhurst J C, Every A G, et al. Measurement precision in surface Brillouin scattering [J]. Journal of the Optical Society of America B, 1998, 15(9): 2481-2489.
[10] Cheng Guangxu. Raman Brillouin scattering [M]. Beijing: Science Press, 2008: 461-467.
[11] Scarcelli G, Yun S H. In vivo Brillouin optical microscopy of the human eye [J]. Optics Express, 2012, 20(8): 9197-9202.
[12] Koski K J, Akhenblit P, McKiernan K, et al. Non-invasive determination of the complete elastic moduli of spider silks [J]. Nature Materials, 2013, 12: 262-267.
[13] Olsson K S, Klimovich N, An K, et al. Temperature dependence of Brillouin light scattering spectra of acoustic phonons in silicon [J]. Applied Physics Letters, 2015, 106: 051906.
[15] Feng Jing, He Xingdao, Wu Tao, et al. An experiment system measuring the spontaneous Rayleigh-Brillouin scattering line profiles of gas [J]. Laser & Optoelectronics Progress, 2014, 51(7): 072901.
[16] Zhang Ying, Wang Sheng, Zheng Xiong, et al. Speed of sound measurement from spontaneous Brillouin scattering [J]. Acta Physica Sinica, 2015, 64(3): 037801.
[17] Zhao Junwei, Ouyang Zhonghui, Liu Dongxin. Network communications programme use of asynchronism socket based on message and multithreading technology [J]. Microcomputer Information, 2009, 25(10-3): 114-115.
[18] Du Fei, Liu Xinsong, Qiu Yuanjie, et al. Application and research of netlink socket in system communication [J]. Microcomputer Information, 2006, 22(3): 95-97.
[19] Sun Qinlong, Shao Huihe. Application of socket in industrial data communication [J]. Control Engineering of China, 2006, 13(3): 274-277.
[20] Wang Weihong, Fan Tingjiu. Research on the designing and realization of medical information transmission based on the socket [J]. China Medical Equipment, 2014, 11(1): 36-39.
[21] Zhao W Q, Tan J B, Qiu L R. Bipolar absolute differential confocal approach to higher spatial resolution [J]. Optics Express, 2004, 12(21): 5013-5021.
[22] Zhao W Q, Tan J B, Qiu L R. Tri-heterodyne confocal microscope with axial superresolution and higher SNR [J]. Optics Express, 2004, 12(21): 5191-5197.
[23] Xie Jinghui, Zhao Dazun, Yan Jixiang. Physics optics course [M]. Beijing: Beijing Institute of Technology Press, 2012: 174-179.
[24] Jamal M, Asadabadi S J, Ahmad I, et al. Elastic constants of cubic crystals [J]. Computational Materials Science, 2014, 95: 592-599.
[25] Liu Jingye, Li Changjiang, Zhang Pengxiang, et al. Brillouin scattering of high polymer [J]. Journal of Beijing University of Chemical Technology, 1983 (1): 110-115.