[1] BRILLOUIN L,DE PHYSIQUE A. Diffusion de la lumiere et des rayons X par un corps transparent homogene-influence de l'agitation thermique[J]. Annales de Physique,1922,17:88-122. [2] DEBYE P,SEARS F W. On the scattering of light by supersonic waves[J]. Proceedings of the National Academy of Science,1932,18(6):409-414. [3] LUCAS P M R,BIQUARD P. Optical properties of solid and liquid medias subjected to high-frequency elastic vibrations[J]. Le Journal de Physique et le Radium,1932,549 (3):464-477. [4] KLEIN W R,COOK B D. Analysis of Kapitza-Dirac diffraction patterns beyond the Raman-Nath regime[J]. Optics Express,2009,(17):19173-1180. [5] ZENG S,BI K,XUE S,et al.. Acousto-optic modulator system for femtosecond laser pulses[J]. Rev Sci Instrum,2007,78(1):015103. [6] 杨薇,刘迎,肖立峰,等.声光可调谐环形腔掺铒光纤激光器[J].物理学报,2010,59(2):1030-1035. YANG W,LIU Y,XIAO L F,et al.. Acousto-optic wavelength-tunable erbium-dopedfiber ringlaser[J]. Acta Phys Sin,2010,59(2):1030-1035.(in Chinese) [7] DIXON R W. Acoustic diffraction of light in anisotropic media[J]. IEEE J. Quantum Electronics,1967,3(2):85-93. [8] TAKAHASHI K,TANAKA K,HASHIMOTO N,et al.. Widely(132 nm) wavelength tunable laser using semiconductor optical amplifier and acousto-optic tunable filter[J]. Electronics Lett.,2004,40(19):1187-1188. [9] HARRIS S E,WALLACE R W. Acousto-optic tunable filter[J]. J. Optical Society America,1969,59(6):744-747. [10] CHANG I C. Phosphorescence imaging system using an acousto-optic filter-based charge coupled device[J]. SPIE,1997,351:229-239. [11] GLENAR D A,HILLMAN J J,SAIF B,et al.. Acousto-optic imaging spectropolarimetry for remote sensing[J]. Appl. Opt.,1994,33(31):7412-7424. [12] GLENAR D A,HILLMAN J J. Acousto-optic imaging spectropolarimetry for remote sensing[J]. Appl. Optic,1994,33(31):7412-7424. [13] LV X,ZHAN C,ZENG S,et al.. Construction of multiphoton laser scanning microscope based on dual-axis acousto-optic deflector[J]. Rev Sci. Instrum,2006,77(4):046101. [14] 赵慧洁,程宣,张颖.用于火星探测的声光可调谐滤波器成像光谱仪[J].光学 精密工程,2012,20(9):945-1952. ZHAO H J,CHENG X,ZHANG Y. Design of acousto-optic imaging spectrometer for mars exploration[J]. Opt. Precision Eng.,2012,20(9):945-1952.(in Chinese) [15] 张建英,谢文明,曾志平,等.光声成像技术的最新进展[J].中国光学,2011,4(2):111-117. ZHANG J Y,XIE W M,ZENG ZH P,et al.. Recent progress in photoacoustic imaging technology[J]. Chinese Optics,2011,4(2):111-117.(in Chinese) [16] 吕晓华,占成,张红民,等.随机扫描多光子荧光显微成像系统[J].光学学报,2006,26(11):1823-1828. LV X H,ZHAN CH,ZHANG H M,et al.. Construction of random-access scanning multiphoton fluorescence microscope system[J]. Acta Optica Sinica,2006,26(11):1823-1828.(in Chinese) [17] NGOI B K A,VENKATAKRISHNAN K,TAN B,et al.. Angular dispersion compensation for acousto-optic devices used for ultrashort-pulsed lasermicromachining[J]. Opt Express,2001,9(4):200-206. [18] BELLON V,VIGNEAU J L,SVILA F. Infrared and near-infrared technology for the food industry and agricultural uses:on-line applications[J]. Food Control,1994,5(1):21-27. [19] KHOSHNEVISAN M,SOVERO E. Development of a cryogenic infarred acousto-optic tunable spectral filter[J]. SPIE,1980,245:63-68. [20] 任玉,蔡红星,谭勇,等.基于TeO2旋光特性对声光可调滤波器消色散的设计[J].中国科学,2011,41(8):917-923. REN Y,CAI H X,TAN Y,et al.. Design of the acousto-optic tunable filter base on the rotatory property of TeO2[J]. Scientia Sinica,2011,41(8):917-923.(in Chinese) [21] 任玉.基于布拉格调制下的成像光谱仪的分光部分研究[D].长春:长春理工大学,2011. REN Y. Study on dispersion parts by bragg modulating in imaging spectrometer[D]. Changchun:Changchun University of science and Technology,2011.(in Chinese) [22] 德荣,吕晓华,吴萍,等.声光偏转器扫描飞秒激光的时间色散补偿[J].物理学报,2006,55(9):4729-4733. DE R,LV X H,WU P,et al.. Compensation of temporal dispersion for acousto-optical deflector scanning femtosecond laser[J]. Acta Phys Sin,2006,55(9):4729-4733.(in Chinese)