Infrared and Laser Engineering, Volume. 51, Issue 12, 20220195(2022)
Temperature control technology for extra large surface blackbody based on two-phase fluid
[1] Jie Xu, Linhua Yang, Na Li. Key technologies and development of point-source blackbody working at low temperature. Spacecraft Environment Engineering, 28, 151-156(2011).
[2] Heng Xu, Yizhong Han, Yongjun Yang. Development of blackbody source. Metrology & Measurement Technology, 29, 1-3(2009).
[3] Hailiang Gao, Xingfa Gu, Tao Yu, et al. The research overview on visible and near-infrared channels radiometric calibration of space-borne optical remote sensors. Remote Sensing Information, 117-128(2010).
[4] Zhaozhou Li, Xiaobing Zheng, Lingli Tang, et al. An advanced technology of absolute radiometric calibration for optical remote sensors. Journal of Remote Sensing, 11, 581-588(2007).
[5] Qijin Han, Xiangjun Min, Qiaoyan Fu, et al. Analysis of onboard calibration accuracy of HJ-1B infrared multispectral camera. Spacecraft Recovery & Remote Sensing, 31, 41-47(2010).
[6] Hongxia Wu, Bo Zhang, Feng Jiang, et al. A temperature control system of miniature blackbody based on thermoelectric cooler. Journal of Astronautic Metrology and Measurement, 37, 64-67(2017).
[7] Aoao Bao, Panxun Cao. Research of high-precision low tem-perature extended surface blackbody. Laser & Infrared, 48, 1023-1026(2018).
[8] Sha Liu, Zhantao Wang, Tao Wang, et al. Research on a type of ir dynamic simulation drone based on extend blackbody. Journal of Astronautic Metrology and Measurement, 37, 10-17(2017).
[9] Zhaoli Wang, Yangyang Zhang, Wei Li, et al. The research of uniform temperature structure for low temperature extended area blackbody. Vacuum and Cryogenics, 18, 201-204(2012).
[10] Qiang Wang, Wei Zhang, Jingmin Dai, et al. Temperature uniformity optimum design and performance evaluation of surface blackbody radiant source with cavity effect. Journal of Harbin Institute of Technology, 45, 18-24(2013).
[11] Youhua Hu, Xiaopeng Hao, Ruiheng Sima, et al. Development of large-aperture and high-emissivity surface blackbody radiation source. Acta Metrologica Sinica, 42, 314-320(2021).
[12] Chao Wang, Zhonghui Hu. Temperature control technology of cryogenic infrared target source. Infrared and Laser Engineering, 44, 827-831(2015).
[13] Jianbin Yang, Wenrui Zhang, Shu Bai, et al. Temperature analysis for infrared radiation calibration plane blackbody. Vacuum and Cryogenics, 17, 23-27(2011).
[14] Yinghong Dai, Jianfeng Wu, Yazhou Zhang, et al. Development of a calibration device of low temperature blackbody with large aperture. Journal of Astronautic Metrology and Measurement, 32, 49-52(2012).
[15] Zhun Li, Qiang Li, Xiaopeng Hao, et al. Design and implementation of refrigeration system for 1.2 m diameter low temperature extended area blackbody. Vacuum and Cryogenics, 27, 340-345(2021).
[16] Jing Qian, Shengli Sun, Shengyun Yu, et al. Design of large size infrared radiant planar source. Infrared and Laser Engineering, 42, 32-35(2013).
[17] Shengyun Yu, Jing Qian, Chaoliang Yong, et al. Temperature control system and performance test method for new infrared radiant target. Infrared and Laser Engineering, 40, 199-202(2011).
[18] Chao Li, Yuguo Zhang, Baowei Liu, et al. Research on technology of large area blackbody radiation source used in field calibration for target radiation characteristics. Journal of Applied Optics, 42, 292-298(2021).
[19] [19] Miao Jianyin, Zhong Qi, Zhao Qiwei, et al. Spacecraft Thermal Control Technology[M]. Beijing: Beijing Institute of Technology Press, 2018: 160178. (in Chinese)
[20] Xiangyin Lv, Yongshun Ling, Chaochao Huang. Calculation of surface temperature and infrared radiation for ground target. Infrared and Laser Engineering, 35, 563-567(2006).
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Changpeng Yang, Kan Xu, Liang Xue, Jinyin Huang, Xingang Yu, Yinnian Liu, Yunfei Song, Mingjian He. Temperature control technology for extra large surface blackbody based on two-phase fluid[J]. Infrared and Laser Engineering, 2022, 51(12): 20220195
Category: Infrared technology and application
Received: Mar. 17, 2022
Accepted: --
Published Online: Jan. 10, 2023
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