[1] P RAHNAMA, W GAULT, IMCDADE et al. Onboard calibration and monitoring for the SWIFT instrument. Measurement Science and Technology, 23, 105801(2012).
[2] S LIU, G G SHEPHERD, Y CHEN et al. WINDII observations and WACCM‐X simulations of high‐latitude winds under different solar radio flux and geomagnetic disturbance conditions. Journal of Geophysical Research: Space Physics, 124, 6087-6096(2019).
[3] R NICIEJEWSKI, Q WU, W SKINNER et al. TIMED doppler interferometer on the thermosphere ionosphere mesosphere energetics and dynamics satellite: data product overview. Journal of Geophysical Research, 111, 1-20(2006).
[4] F VARGAS. Uncertainties in gravity wave parameters, momentum fluxes and flux divergences estimated from multi-layer measurements of mesospheric nightglow layers. Advances in Space Research, 63, 967-985(2019).
[5] B SOLHEIM, BROWN , S , C SIORISetal. SWIFT-DASH: spatial heterodyne spectroscopy approach to stratospheric wind and ozone measurement. Atmosphere-Ocean, 53, 50-57(2015).
[6] S I SARGOYTCHEV, S BROWN, B H SOLHEIMetal. Spectral Airglow Temperature Imager (SATI): a ground-based instrument for the monitoring of mesosphere temperature. Applied Physics, 43, 5712-5721(2004).
[7] Y M CHO, M G SHEPHERD, G G SHEPHERD. Wave perturbations in the MLT at high northern latitudes in winter, observed by two SATI instruments. Advances in Space Research, 45, 45-55(2010).
[8] HAYS , P B , V J ABREU, M E DOBBS et al. The high-resolution Doppler imager on the upper atmosphere research satellite. Journal of Geophysical Research Atmospheres, 98, 10713-10723(1993).
[9] G G SHEPHERD, G THULLIER, W A GAULT et al. WINDⅡ the wind imaging interferometer on the upper atmosphere research satellite. Journal of Geophysical Research, 98, 10725-10750(1993).
[10] Tao YU, Chunliang XIA, Xiaomin ZUO et al. A comparison of mesospheric and low‐thermospheric winds measured by Fabry Perot interferometer and Meteor Radar over Center China. Journal of Geophysical Research Space Physics, 121, 10037-10051(2016).
[11] P RONG, C ZHANG, W E WARD et al. Compensation optimization for a static Mars wind imaging Michelson interferometer. Optics and Lasers in Engineering, 142, 106589(2021).
[12] Yuanhe TANG, Jin CUI, Haiyanget al GAO. Calibrations of ground based airglow imaging interferometer for the upper atmospheric wind field measurement. Acta Physica Sinica, 66, 65-74(2017).
[13] Haiyang GAO, Yuanhe TANG, Dengxin HUA et al. Ground-based airglow imaging interferometer. Part 1: instrument and observation. Applied Optics, 52, 8650-8660(2013).
[14] Yuanhe TANG, Xiaodong DUAN, Haiyang GAO et al. Ground-based airglow imaging interferometer. Part 2: forward model and inverse method. Applied Optics, 53, 2273-2282(2014).
[15] Haiyang GAO, Yuanhe TANG, Dengxin HUA et al. Study on the wide-angle Michelson interferometer with large air gap. Applied Optics, 50, 5655-5661(2011).
[16] Yuanhe TANG, Rui YANG, Haiyang GAO et al. Improving the atmospheric wind speed measured accuracy by the ground-based airglow imaging interferometer, 10256, 642-651(2017).
[17] Yuanhe TANG, Peng SUN, Haiyang GAO et al. Simulation and observation for volume emission rates emitted from O2(0-1) and O(1S) nightglow at northwest china. Applied Optics, 84, 1093-1100(2019).
[18] Zhizhong ZHENG, Zhong YANG, Liancun XIU et al. Design of a SWIR offner imaging spectrometer. Spectroscopy and Spectral Analysis, 37, 2267-2272(2017).
[19] Dalian SHI, Yutao FENG, Geng ZHANG et al. Research on the calibration and data retrieval of the wind field measurement Fabry-Perot interferometer. Acta Photonica Sinica, 44, 21-26(2015).
[20] Jiqiang KANG, Xuemin CHENG, Qun HAO. Two demensional modulation transfer function and its application in wavefront aberration detection. Acta Photonica Sinica, 43, 131-137(2014).