Acta Photonica Sinica, Volume. 51, Issue 7, 0751406(2022)

Development and Prospect of Stray Light Suppression and Evaluation Technology(Invited)

Hu WANG1...2,3,*, Qinfang CHEN1, Zhanpeng MA1,2, Haoyu YAN1,2, Shangmin LIN1,2, and Yaoke XUE1,45 |Show fewer author(s)
Author Affiliations
  • 1Xi'an Institute of Optics and Precision Mechanism,Chinese Academy of Sciences,Xi'an 710119,China
  • 2University of Chinese Academy of Sciences,Beijing 100049,China
  • 3CAS Key Laboratory of Space Precision Measurement Technology,Xi'an 710119,China
  • 4Youth Innovation Promotion Association,Chinese Academy of Sciences,Beijing 100037,China
  • 5Beijing University of Aeronautics and Astronautics,Beijing 100191,China
  • show less
    References(181)

    [7] Chao MEI. The study of stray light analysis and suppressing technology in large pupil mulit-spectal zoom optical system(2014).

    [11] Miaomiao ZHANG. Research on stray light characteristics and correction of directional polarimetric camera(2019).

    [12] Zhile WANG, Zhongqiang GONG, Wei ZHANG et al. Measurement of stray light based on point-source transmittance in space optical system. Optical Technique, 37, 401-405(2011).

    [13] Jianguo TIAN. Analysis and suppression of infrared stray light of geosynchronous orbiting telescope(2021).

    [14] Yang WANG. Study on suppression and analysis of stray light in infrared detector assembly(2016).

    [24] Hu WANG, Liquan WU, Yaoke XUE et al. A horn tube type baffle.

    [25] V ABBASI, S THORSTEINSON, D BALAM et al. The NEOSSat experience: 5 years in the life of Canada’s space surveillance telescope, 22, 1-16(2019).

    [26] Zhiqiang WANG. Design of off-axis reflecting collimator with 350mm aperture(2020).

    [27] Linglin WU, Zhonghua MIAO, Hongli BAI et al. A honeycomb baffle.

    [28] Yulin HE, Senyang HE. A honeycomb anti-glare optical component and classroom lighting fixture.

    [29] Xue CHEN, Chuang SUN, Xinlin XIA. Stray light suppression property of baffle with honeycombed wall. Acta Optica Sinica, 32, 230-234(2012).

    [30] Tao YANG, Chunlin LI, Qingliang MENG. Application of reflective ellipsoid grating system in space optical remote sensor. Spacecraft Recovery & Remote Sensing, 37, 74-81(2016).

    [33] Qiang LU. Study on stray light analysis and application technology of the earth synchronous orbit space camera(2016).

    [36] Shangmin LIN, Hu WANG, Jie LIU et al. A telescopic expandable mechanism.

    [45] J YAO, X TANG, G LI et al. Cloud detection of GF‐7 satellite laser footprint image. IET Image Processing, 15, 2127-2134(2021).

    [53] Zhaoyuan TONG, Meng LI, Chengbo CUI et al. Design and analysis of the configuration of deployable membrane sunshield. Chinese Space Science and Technology, 41, 82-88(2021).

    [59] Peipei YAN. Research on stray radiation suppression of dual band integrative optical system used to low-orbit spaceborne earth(2019).

    [60] Mingzhe SUN, Hongxin ZHANG, Zhenwu LU et al. Stray light suppression of the large field of view coronagraph optical system. Laser & Optoelectronics Progress, 51, 162-168(2014).

    [62] Jianxian ZHANG, Yongjun ZOU, Lei XU et al. Matte coating and its application in optical system. Aerospace Materials and Technology, 44, 88-90(2014).

    [68] Liang XU. Research on key technologies of stray light measurement for large aperture optical system(2019).

    [74] Jiaqiang ZHANG, Hu NIU, Youjian YANG et al. Effect of deep space radiation environments on properties of high absorptivity stray light coatings. Aerospace Materials and Technology, 51, 134-138(2021).

    [75] Tuo PING, Ying ZHOU, Chengwu YU et al. Effect of simulated space radiation environments on properties of stray light coatings. Surface Technology, 49, 30-37(2020).

    [81] Meizi XIAO. “Keyhole” junior debuts. Space Exploration, 46-49(2019).

    [84] Yuncai HAO, Chengwu YU, Shitong LIANG et al. New generation of star tracker baffle-CNT baffle. Aerospace Control and Application, 42, 1-7+31(2016).

    [88] Yongqiang PAN, Zhensen WU, Lingxia HANG. Optical thin films interfaces roughness cross-correlated properties and light scattering. Chinese Journal of Lasers, 35, 916-920(2008).

    [91] Y HAMEDANI, P MACHA, T J BUNNING et al. Plasma-enhanced chemical vapor deposition: where we are and the outlook for the future(2016).

    [92] Qibiao ZGOU, Jianhua CHEN, Yuhua SONG et al. Design and analysis of variable refractivity optical film. New Technology & New Process, 47-51(2020).

    [93] Liangyi HANG, Weiguo LIU, Lingxia HANG et al. Research progress in preparation of optical thin films by PECVD. Laser & Optoelectronics Progress, 57, 45-56(2020).

    [98] A FEDOTOV. Getting rid of 95% UCL calculations in ISO 14644-1: 2015 standard: new weaknesses and possible solutions. Clean Air and Containment Review, 2018, 12-15(2018).

    [105] Weirong YANG, Yongqiang PAN, Zhiqi ZHENG. Single-layer film regulation characteristics of particle pollutant scattering from optical surfaces. Infrared and Laser Engineering, 50, 465-471(2021).

    [106] Jinze LIU, Yongqiang PAN, Chen YANG. Theoretical and experimental study on scattering reduction of single-layer TiO2/SiO2 optical films. Surface technology, 48, 172-176(2019).

    [112] Hu WANG, Jie LIU, Shangmin LIN et al. A dustproof device for an optical system.

    [113] Meidan ZHAI, Junfeng MI, Wenxin MA et al. The development of electrostatic dust removal technology and its influencing factors. Applied Chemical Industry, 50, 2572-2577(2021).

    [115] Jun PENG. Analysis and measurement of iinternal stray radiation of thermal infrared imaging spectrometer(2020).

    [118] A H ALHAMEDI, R J LILLIS, A R POPPE et al. TRACE: telescope for radiation characterization at Europa(2018).

    [121] Weian ZHANG, Xiaojie YANG, Zhongliang ZHOU. Study on suppressing false signal generated by sunlight in omni-directional laser detection. Electro-Optic Technology Application, 26, 55-58(2011).

    [123] Liming YANG. Study of target enhancement technique based on polarimetric imaging(2018).

    [124] Xiaopeng SHAO, Fei LIU, Wei LI et al. Latest progress in computational imaging technology and application. Laser & Optoelectronics Progress, 57, 11-55(2020).

    [128] Hu WANG, Zehua MA, Yang SHEN et al. A large field of view energy detection optical system based on concentric spherical mirrors.

    [129] Tengfei ZHANG. Study on stray light characteristic analysis and correction method of watercolor image spectrometer(2016).

    [134] Ming YAN, Fei WU, Zhiyong WANG. Removal of SJ-9A optical imagery stray light stripe noise. Spacecraft Recovery& Remote Sensing, 35, 72-80(2014).

    [138] Xiaochen ZHAO. Technological research of the scattered light measurement of optical element of the surface in solar telescope system(2016).

    [145] Chengcheng LI. Analysis and experimental study of laser scattering characteristics based of kirchhoff approximation(2021).

    [158] T AKUTSU, M ANDO, K ARAI et al. Overview of KAGRA: KAGRA science. Progress of Theoretical and Experimental Physics, 2021, 05A103(2021).

    [159] S D SHIBAIKIN, E G ALEKSEEV. Software library for the lighting fixtures optical characteristics calculation by the computer-aided design system kompas 3D. Light & Engineering, 29, 78-85(2021).

    [168] R FURFARO, R LINARES, V REDDY. Space objects classification via light-curve measurements: deep convolutional neural networks and model-based transfer learning(2018).

    [169] Dun LIU. Research on stray light in hybrid diffractiove/ refractive imaging optical system(2018).

    [170] J G TIAN, X L LI, L B HOU et al. Analysis and suppression of stray radiation in an infrared telescope system in geosynchronous orbit, 11548, 115480I(2020).

    [171] Xingxing SHU. Analysis and suppression of stray light in visible light optical system(2015).

    [173] Zhaohui LI. Stray light testing technology research of long focal length and large aperture optical system(2016).

    [174] Xiaoping LI, Gang WANG, Tingliang HU. High-precision stray light measurement system analysis. Infrared Technology, 33, 521-524(2011).

    [175] Zhen MA, Xuewu FAN, Rongli CHEN et al. Large aperture stray light coefficient measurement method and system based on computer holographic optical components.

    [176] Liang XU, Jianke ZHAO, Yan ZHOU et al. Large aperture stray light test device and test method.

    [180] Qinfang CHEN, Yaoke XUE, Yang LI et al. A high rejection ratio optical trap.

    [181] Qinfang CHEN, Yaoke XUE, Zhanpeng MA et al. Stray light test system test chamber glass.

    [182] Qinfang CHEN, Yaoke XUE, Zhanpeng MA et al. Device and method for aligning the optical axis of the collimator with the optical axis of the optomechanical system in the stray light test.

    [184] Qinfang CHEN, Liang XU, Jiaoteng DING et al. A time-resolved point source transmittance stray light measurement system.

    [187] Hui LI. Study on the stray light analysis method for optical system(1996).

    [188] Yuncai HAO. Technical progress and application of space optical sensor. Aerospace Control and Application, 43, 9-18(2017).

    Tools

    Get Citation

    Copy Citation Text

    Hu WANG, Qinfang CHEN, Zhanpeng MA, Haoyu YAN, Shangmin LIN, Yaoke XUE. Development and Prospect of Stray Light Suppression and Evaluation Technology(Invited)[J]. Acta Photonica Sinica, 2022, 51(7): 0751406

    Download Citation

    EndNote(RIS)BibTexPlain Text
    Save article for my favorites
    Paper Information

    Category: Special Issue for the 60th Anniversary of XIOPM of CAS, and the 50th Anniversary of the Acta Photonica Sinica

    Received: Apr. 18, 2022

    Accepted: May. 16, 2022

    Published Online: Oct. 25, 2022

    The Author Email: WANG Hu (wanghu@opt.ac.cn)

    DOI:10.3788/gzxb20225107.0751406

    Topics