[1] A A GOWEN, C P O'DONNELL, P J CULLEN et al. Hyperspectral imaging-an emerging process analytical tool for food quality and safety control. Trends in Food Science & Technology, 18, 590-598(2007).

[2] G LU, B FEI. Medical hyperspectral imaging: a review. Journal of Biomedical Optics, 19, 10901(2014).

[3] J LIU, J M PHILIPPA. Hyperspectral remote sensing for mineral exploration in Pulang, Yunnan Province, China. International Journal of Remote Sensing, 32, 2409-2426(2011).

[4] G ELMASRY, D W SUN. Principles of hyperspectral imaging technology. Hyperspectral Imaging for Food Quality Analysis and Control, 3-43(2010).

[5] N HAGEN, M W KUDENOV. Review of snapshot spectral imaging technologies. Optical Engineering, 52, 090901(2013).

[6] R BACON, G ADAM, A BARANCE et al. 3D spectrography at high spatical resolution. I. Concept and realization of the integral field spectrograph TIGER. Astronomy & Astrophysics Supplement Series, 113, 347-357(1995).

[7] Y SUEMASTSU, H IMAI. Tridimensional spectroscopic observations of the sun with a microlens-array spectrograph. High Resolution Solar Physics: Theroy, Observations, and Techniques, 183, 303-310(1999).

[8] L BLANDINE, A GREG, A PIEERE et al. SNIFS: a wideband integral field spectrograph with microlens arrays. Optical Design and Engineering, 5249, 146-155(2004).

[9] G D JASIB, S T TOMASZ. Lenslet array tunable snapshot imaging spectrometer (LATIS) for hyperspectral fluorescence microscopy. Biomedical Optics Express, 8, 1950-1964(2017).

[10] J LIU, J CHEN, J LIU et al. Optical design of a prism-grating-based lenslet array integral field spectrometer. Optics Express, 26, 19456-19469(2018).

[11] C YU, J YANG, N SONG et al. Microlens array snapshot hyperspectral microscopy system for the biomedical domain. Applied Optics, 60, 1896-1902(2021).

[12] Qingsheng XUE, Shurong WANG, Futian LI et al. Analysis and experiment validation of signal-to noise for limb imaging spectrometer. Spectroscopy and Spectral Analysis, 30, 1697-1701(2010).