[1] Dai Y. Design and research of optical system for large field of view dynamic star simulator[D](2020).
[2] Li X. Research on star map display and testing method of high precision and high dynamics star simulator[D](2020).
[3] Zhang X J, Zhang J, Yang J J et al. Research on multiple star magnitude simulation of star simulator[J]. Laser & Infrared, 48, 1150-1155(2018).
[4] Xu D, Zhang G Y, Sun G F. Design of star simulator with spatial background light[J]. Chinese Journal of Space Science, 38, 575-582(2018).
[5] Liu S, Zhang G Y, Sun G F et al. Design of high-precision static star simulator with uniform sky background[J]. Acta Photonica Sinica, 45, 1222002(2016).
[6] Li G X, Wang L Y, Zheng R et al. Study on algorithm of high dynamic ground star map simulation detection system[J]. Journal of Changchun University of Science and Technology (Natural Science Edition), 42, 24-27(2019).
[7] Wan X, Liu P X, Zhang T T. Research progress of supercontinuum laser spectroscopy in biomedical field[J]. Spectroscopy and Spectral Analysis, 37, 338-345(2017).
[8] Yang W Q, Song R, Han K et al. Research progress of supercontinuum laser source[J]. Journal of National University of Defense Technology, 42, 1-9(2020).
[10] Xing K, Li M Y, Cao J. Development of GaN based blue green LEDs and solid state light sources[J]. Electronic Technology & Software Engineering, 104(2017).
[12] Xie C Y. Spectral radiometric calibration system and application using supercontinuum laser[D](2020).
[13] Hu K Y. The preliminary study of the optical trap with supercontinuum[D](2016).
[14] Jin A J. Study on fiber-amplifier-based supercontinuum source[D](2015).
[15] Zuo X X. Theoretical and experimental study of supercontinuum laser source in photonic crystal fiber[D](2007).
[16] Li G X. Study on key techniques of star map simulation in dynamic star simulator[D](2019).
[21] Chen F, Yuan Y L, Zheng X B et al. Design of spectral tunable LED light source[J]. Optics and Precision Engineering, 16, 2060-2064(2008).
[22] Zhu J Y. The research of LED-based spectrally tunable source[D](2010).
[23] Hu Y N. Study on mini-dynamic star simulator technologies[D](2010).
[24] Liu H X, Ren J W, Li B Y et al. Spectrum-tunable distribution and spectral matching for integrating sphere light source based on bromine tungsten lamps and LEDs[J]. Chinese Journal of Luminescence, 32, 1074-1080(2011).
[25] Liu H X, Ren J W, Wan Z et al. Measurement of relative spectral responsivity of photodetector by LED-based spectrum-tunable source[J]. Spectroscopy and Spectral Analysis, 33, 250-254(2013).
[26] Liu H X, Liu Z X, Li B Y et al. Spectrum-tunable light source based on multi-sources[J]. Optics and Precision Engineering, 22, 2345-2351(2014).
[27] Liu H X, Ren J W, Liu Z X et al. LED-based single star simulator with multi-color-temperature and multi-star-magnitude output[J]. Acta Optica Sinica, 35, 0212003(2015).
[28] Xiang J R, Ren J W, Li B Y et al. Research on ground scenery spectral radiation source with tunable spectra[J]. Spectroscopy and Spectral Analysis, 35, 298-303(2015).
[29] Ma Q, Zhang T. Single star simulator with adjustable magnitude and spectrum for calibration[J]. Journal of Applied Optics, 35, 38-42(2014).
[30] Zhang J, Zhang T, Xiao P. Opto-mechanical system of single-star simulator with multi-color temperature and multi-magnitude output[J]. Journal of Applied Optics, 33, 949-953(2012).
[31] Zhao C R, Zhang T, Lin X T. Design of single star simulator system with multi-color-temperature and multi-magnitude output[J]. China Measurement & Test, 38, 61-64(2012).
[32] Li X N. The research for the star simulation with adjustable spectrum[D](2015).
[34] Wang W Z, Liu B B. Lab sphere optics in China’s big market: interview with Xiao Dong, Asia Pacific marketing director of lab sphere optics Co., Ltd[J]. Laser & Optoelectronics Progress, 46, 76-78(2009).
[35] Zhang X J, Zhang G Y, Sun G F et al. Spectral study for star simulator on hybrid light source[J]. Acta Photonica Sinica, 43, 0222001(2014).
[36] Levick A P, Dury M, Ireland J et al. The use of the Allan deviation for noise and drift measurements in radiometry applications[C], 19-23(2011).
[44] Li Z G. Spectrally tunable light source based on digital micromirror device[J]. Chinese Journal of Luminescence, 35, 1120-1123(2014).
[45] Wang W P. Study on technique of star spectral simulator based on digital micromirror device[D](2019).
[46] Xu D, Zhang G Y, Sun G F et al. Spectrally tunable star simulator light source based on digital micro-mirror device[J]. Chinese Journal of Luminescence, 38, 1384-1390(2017).
[47] Xu D, Zhang G Y, Sun G F. Design of spectral continuous adjustable star sensor’s ground calibration system[J]. Chinese Journal of Space Science, 37, 608-615(2017).
[48] Xu D, Zhang G Y, Sun G F et al. Optical system design of star simulator light source with spectrum adjustable based on DMD[J]. Acta Photonica Sinica, 46, 0722002(2017).
[49] Wang X X. Study on new types of spectral radiance calibration source[D](2018).
[50] Xu D, Yue S X, Zhang G Y et al. Design of an Offner convex grating radiation calibration light source with a wide dynamic range[J]. Chinese Optics, 13, 1085-1093(2020).
[51] Xu D, Zhang G Y, Sun G F. Design of advanced Offner-type convex grating spectral radiation calibration optical system[J]. Acta Optica Sinica, 40, 0822002(2020).
[52] Wu Y X. Study on several key technologies for high-accuracy star sensor[D](2015).
[53] Liu F, Zhang F, Bian H et al. Development and preparation of refractive infrared microlens array device[J]. Laser & Optoelectronics Progress, 57, 071607(2020).
[54] Liu S Y, Zhang J Y. Principles and applications of ultrafast laser processing based on spatial light modulators[J]. Laser & Optoelectronics Progress, 57, 111431(2020).