[1] Shaofan Tang, Zhijun Lu, Weigang Wang, . Brief description of space hyperspectral imager (invited). Infrared and Laser Engineering, 48, 0303003(2019).

[2] Rui Zhang, Kunyang Xie, Ning Jing, . Technology of hyperspectral full polarization imaging based on superachromatic 1/4 wave plate and acousto-optic tunable filter. Infrared and Laser Engineering, 48, 0814004(2019).

[3] V Batshev, A Machikhin, G. Martynov et al. Polarizer-free AOTF-based SWIR hyperspectral imaging for biomedical applications. Sensors, 20, 4439(2020).

[4] Kablev O, Ivanov A, Fedova A, et al. Development of a mast robotic armmounted infrared AOTF spectrometer f surface Moon Mars probes[C]Proceedings of SPIE, 2015, 9608: 960807.

[5] Changkun Wu, Wei Zhang, Yazhe Hao. Design of a control system for a visible/near-infrared real-time imaging spectrometer. Chinese Optics, 15, 348-354(2022).

[6] I C Chang. Noncollinear acousto-optic filter with large angular aperture. Applied Physics Letters, 25, 370-372(1974).

[7] T Yano, A Watanabe. Acousto-optic TeO₂ tunable filter using far-off-axis anisotropic bragg diffraction. Applied Optics, 15, 2250-2258(1976).

[8] P A Gass, J R Sambles. Accurate design of a noncollinear acousto-optic tunable filter. Optics Letters, 16, 429-431(1991).

[9] V B Voloshinov, V Y Molchanov, J C Mosquera. Spectral and polarization analysis of optical images by means of acousto-optics. Optics & Laser Technology, 28, 119-127(1996).

[10] V B Voloshinov, J C Mosquera. Wide-aperture acousto-optic interaction in birefringent crystals. Optics & Spectroscopy, 101, 635-641(2006).

[11] L Krauz, P Páta, J Bednář, et al. Quasi-collinear IR AOTF based on mercurous halide single crystals for spatio-spectral hyperspectral imaging. Optics Express, 29, 12813-12832(2021).

[12] A V Gorevoy, A S Machikhin, G N Martynov, et al. Spatio-spectral transformation of noncollimated light beams diffracted by ultrasound in birefringent crystals. Photonics Research, 9, 687-693(2021).

[13] S N Mantsevich, E I Kostyleva. Examination of the temperature influence on phase matching frequency in tunable acousto-optic filters. Ultrasonics, 91, 45-51(2018).

[14] Lingying Chang, Jingjing Song, Mengzhu Jin. Study on spectral transfer function based on dual AOTF acousto-optic crystal. Journal of Applied Optics, 40, 202-209(2019).

[15] D R Suhre, N Gupta. Acousto-optic tunable filter sidelobe analysis and reduction using telecentric confocal optics. Applied Optics, 44, 5797-5801(2005).

[16] E S Wachman, W Niu, D L Farkas. Imaging acousto-optic tunable filter with 0.35-micrometer spatial resolution. Applied Optics, 35, 5220-5226(1996).

[17] L J Denes, M S Gottlieb, B Kaminsky. Acousto-optic tunable filters in imaging applications. Optical Engineering, 37, 1262-1267(1998).

[18] Zhang C, Wang H, Qiu Y. Sidelobe reduction of Acoustooptic tunable filter by doublefiltering[C]Proceedings of SPIE, 2010, 7656: 76566F.

[19] S P Anikin, V F Esipov, V Y Molchanov, et al. An acousto-optical imaging spectrometer for astrophysical measurements. Optics & Spectroscopy, 121, 115-122(2016).

[20] A S Machikhin, V E Pozhar. Image transformation caused by wide-angle acousto-optic interaction. Quantum Electronics, 40, 837-841(2010).

[21] V B Voloshinov, K B Yushkov, B Linde. Improvement in performance of a TeO₂ acousto-optic imaging spectrometer. Journal of Optics A Pure and Applied Optics, 9, 341-347(2007).

[22] Yu Kuanxin, Ding Xiaohong, Pang Zhaoguagn. Acoustooptic Principle Acoustooptic Devices[M]. Beijing: Science Press, 2011. (in Chinese)