Solar X-ray and EUV imager on board the FY-3E satellite.
Bo ChenXiao-Xin ZhangLing-Ping HeKe-Fei SongShi-Jie LiuGuang-Xing DingJin-Ping DunJia-Wei LiZhao-Hui LiQuan-Feng GuoHai-Feng WangXiao-Dong WangYun-Qi WangHong-Ji ZhangGuang ZhangZhen-Wei HanShuang DaiPei-Jie ZhangLiang SunYang LiuPeng WangKun WuChen TaoShi-Lei MaoGui MeiLiang YangLi-Heng ChenChun-Yang HanBin HuangYang LiuShuai RenPeng ZhouZe-Xi WeiXiao-Xue ZhangYue ZhangXin ZhengYang WangYa ChenJing-Jiang XieFei HeQiao SongWei-Guo ZongXiu-Qing HuPeng ZhangJing-Song WangZhong-Dong YangPublished in: Light, science & applications (2022)
The solar X-ray and Extreme Ultraviolet Imager (X-EUVI), developed by the Changchun Institute of Optics, Fine Mechanics and Physics, Chinese Academy of Sciences (CIOMP), is the first space-based solar X-ray and Extreme ultraviolet (EUV) imager of China loaded on the Fengyun-3E (FY-3E) satellite supported by the China Meteorological Administration (CMA) for solar observation. Since started work on July 11, 2021, X-EUVI has obtained many solar images. The instrument employs an innovative dual-band design to monitor a much larger temperature range on the Sun, which covers 0.6-8.0 nm in the X-ray region with six channels and 19.5 nm in the EUV region. X-EUVI has a field of view of 42', an angular resolution of 2.5″ per pixel in the EUV band and an angular resolution of 4.1″ per pixel in the X-ray band. The instrument also includes an X-ray and EUV irradiance sensor (X-EUVS) with the same bands as its imaging optics, which measures the solar irradiance and regularly calibrates the solar images. The radiometric calibration of X-EUVS on the ground has been completed, with a calibration accuracy of 12%. X-EUVI is loaded on the FY-3E satellite and rotates relative to the Sun at a uniform rate. Flat-field calibration is conducted by utilizing successive rotation solar images. The agreement between preliminarily processed X-EUVI images and SDO/AIA and Hinode/XRT images indicates that X-EUVI and the data processing algorithm operate properly and that the data from X-EUVI can be applied to the space weather forecast system of CMA and scientific investigations on solar activity.
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