[1] Botao Zhou. Global warming: Scientific progress from AR5 to AR6. Transactions of Atmospheric Sciences, 44, 667-671(2021).

[2] Xianqiang Mao, Youkai Xing, Yubing Gao, et al. Study on GHGs and air pollutants co-control: Assessment and planning. China Environmental Science, 41, 3390-3398(2021).

[3] Yidan Chen, Wenjia Cai, Can Wang. The characteristics of intended nationally determined contributions. Climate Change Research, 14, 295-302(2018).

[4] J M Belbute, A M Pereira. Reference forecasts for CO₂ emissions from fossil-fuel combustion and cement production in Portugal. Energy Policy, 144, 111642(2020).

[5] B Grégoire, B Franois-Marie, R Emmanuel, et al. The potential of satellite spectro-imagery for monitoring CO₂ emissions from large cities. Atmospheric Measurement Techniques, 11, 681-708(2018).

[6] C R Englert, M H Stevens, D E Siskind, et al. Spatial heterodyne imager for mesospheric radicals on STPSat-1. Journal of Geophysical Research: Atmospheres, 115 (D20): D20306(2010).

[7] D A Gorinov, L V Zasova, I V Khatuntsev, et al. Winds in the lower cloud level on the nightside of venus from VIRTIS-M (Venus Express) 1.74 μm images. Atmosphere, 12, 186(2021).

[8] Xu Biao. The research of offner imaging system used in spatial heterodyne spectrometer[D]. Hefei: University of Science Technology of China, 2017. (in Chinese)

[9] Liu Yujuan. The study on newly imaging spectrometers based on concentric optics[D]. Beijing: University of Chinese Academy of Sciences, 2012. (in Chinese)

[10] Nicholas T, Curtiss O D, Tim V, et al. Behavial model simulat f the Multislit Optimized Spectrometer (MOS): Imaging spectrometry XVIII[C]Proc of SPIE, 2013.

[11] Yiqun Ji, Weimin Shen. Design and manufacture of Offner convex grating hyper-spectral imager. Infrared and Laser Engineering, 39, 285-287(2010).

[12] Xinhua Chen, Zhicheng Zhao, Zhengping Zhou, . Development of wide field-of-view imaging spectrometer using inner-stitching. Journal of Applied Optics, 37, 495-502(2016).

[13] Cao Yanan. The study of 3.5 μm infrared laser heterodyne spectroscopy technology system[D]. Hefei: University of Science Technology of China, 2018. (in Chinese)

[14] Lei Yu. Development and application of imaging spectrometer. Infrared and Laser Engineering, 51, 20210940(2022).

[15] Yuji Zhu, Dayi Yin, Chuanxin Wei, . Design of hyperspectral resolution ultraviolet double-slit spectrometer system. Semiconductor Optoelectronics, 39, 549-553(2018).

[16] Zhiying Liu, Liuxu Gao, Yunhan Huang. Design of continuous zoom medium-wave infrared spectral imaging system based on offner scheme. Infrared and Laser Engineering, 48, 0718003(2019).

[17] X Prieto-Blanco, C Montero-Orille, B Couce, et al. Analytical design of an Offner imaging spectrometer. Optics Express, 14, 9156-9168(2006).

[18] Yunzhu Sun, Guangwei Jiang, Yunduan Li, et al. Hyper-spectral observation satellite and it's application prospects. Aerospace Shanghai, 34, 13(2017).

[19] Zhe Zhao, Lei Ding. Design of high spectral resolution and wide swath spectrometer for greenhouse gas detection. Infrared, 38, 10(2017).