Ground calibration result of the Lobster Eye Imager for Astronomy

IF 2.7 3区 物理与天体物理 Q2 ASTRONOMY & ASTROPHYSICS Experimental Astronomy Pub Date : 2024-03-07 DOI:10.1007/s10686-024-09932-0
Huaqing Cheng, Zhixing Ling, Chen Zhang, Xiaojin Sun, Shengli Sun, Yuan Liu, Yanfeng Dai, Zhenqing Jia, Haiwu Pan, Wenxin Wang, Donghua Zhao, Yifan Chen, Zhiwei Cheng, Wei Fu, Yixiao Han, Junfei Li, Zhengda Li, Xiaohao Ma, Yulong Xue, Ailiang Yan, Qiang Zhang, Yusa Wang, Xiongtao Yang, Zijian Zhao, Weimin Yuan
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Abstract

We report on results of the on-ground X-ray calibration of the Lobster Eye Imager for Astronomy (LEIA), an experimental space wide-field (18.6 \(\times \) 18.6 square degrees) X-ray telescope built from novel lobster eye micro-pore optics. LEIA was successfully launched on July 27, 2022 onboard the SATech-01 satellite. To achieve full characterisation of its performance before launch, a series of tests and calibrations have been carried out at different levels of devices, assemblies and the complete module. In this paper, we present the results of the end-to-end calibration campaign of the complete module carried out at the 100-m X-ray Test Facility at the Institute of High-energy Physics, Chinese Academy of Sciences (CAS). The Point Spread Function (PSF), effective area and energy response of the detectors were measured in a wide range of incident directions at several characteristic X-ray line energies. Specifically, the distributions of the PSF and effective areas are roughly uniform across the FoV, in large agreement with the prediction of lobster-eye optics. The mild variations and deviations from the prediction of idealized, perfect lobster-eye optics can be understood to be caused by the imperfect shapes and alignment of the micro-pores as well as the obscuration of incident photons by the supporting frames, which can be well reproduced by Monte Carlo simulations. The spatial resolution of LEIA defined by the full width at half maximum (FWHM) of the focal spot ranges from \(\textbf{4}\) to \(\textbf{8}\) arc minutes with a median of \(\mathbf{5.7}\) arcmin. The measured effective areas are in range of \(\mathbf{2-3}~\mathbf {cm^2}\) at \(\mathbf{\sim }\)1.25 keV across the entire FoV, and its dependence on photon energy is also in large agreement with simulations. The gains of the four complementary metal-oxide semiconductor (CMOS) sensors are in range of \(\mathbf{6.5-6.9}~\mathbf {eV/DN}\), and the energy resolutions in the range of \(\mathbf{\sim 120 - 140}\) eV at \(\mathbf{1.25}\) keV and \(\mathbf{\sim 170-190}\) eV at \(\mathbf{4.5}\) keV. These calibration results have been ingested into the first version of calibration database (CALDB) and applied to the analysis of the scientific data acquired by LEIA. This work paves the way for the calibration of the Wide-field X-Ray Telescope (WXT) flight model modules of the Einstein Probe (EP) mission.

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龙虾眼天文成像仪的地面校准结果
摘要 我们报告了龙虾眼天文成像仪(LEIA)的地面X射线校准结果,LEIA是由新型龙虾眼微孔光学器件建造的实验性空间宽视场(18.6平方度)X射线望远镜。LEIA于2022年7月27日搭载SATech-01卫星成功发射。为了在发射前全面鉴定其性能,我们在设备、组件和整个模块的不同层面进行了一系列测试和校准。本文介绍了在中国科学院高能物理研究所 100 米 X 射线测试设备上对整个模块进行的端到端校准活动的结果。探测器的点展宽函数(PSF)、有效面积和能量响应是在多种特征 X 射线能量的入射方向上测量的。具体来说,PSF 和有效面积的分布在整个 FoV 大致均匀,与龙虾眼光学的预测基本一致。与理想化的完美龙虾眼光学预测值之间的轻微变化和偏差可以理解为微孔形状和排列不完美以及入射光子被支撑框架遮挡造成的,蒙特卡罗模拟可以很好地再现这些变化和偏差。LEIA的空间分辨率由焦斑的半最大全宽(FWHM)定义,范围从(textbf{4}\)到(textbf{8}\)角分,中值为(textbf{5.7}\)角分。在 1.25 keV 时,测量到的有效面积在整个 FoV 范围内为(\mathbf{2-3}~\mathbf {cm^2}),其与光子能量的关系也与模拟结果非常一致。四个互补金属氧化物半导体(CMOS)传感器的增益范围在 \(\mathbf{6.5-6.9}~\mathbf {eV/DN}\) ,能量分辨率在 \(\mathbf{1.25}\) keV 时为 \(\mathbf{sim 120 - 140}\) eV,在 \(\mathbf{4.5}\) keV 时为 \(\mathbf{sim 170-190}\) eV。这些校准结果已被纳入第一版校准数据库(CALDB),并应用于分析 LEIA 获取的科学数据。这项工作为校准爱因斯坦探测器(EP)任务的宽视场X射线望远镜(WXT)飞行模型模块铺平了道路。
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来源期刊
Experimental Astronomy
Experimental Astronomy 地学天文-天文与天体物理
CiteScore
5.30
自引率
3.30%
发文量
57
审稿时长
6-12 weeks
期刊介绍: Many new instruments for observing astronomical objects at a variety of wavelengths have been and are continually being developed. Furthermore, a vast amount of effort is being put into the development of new techniques for data analysis in order to cope with great streams of data collected by these instruments. Experimental Astronomy acts as a medium for the publication of papers of contemporary scientific interest on astrophysical instrumentation and methods necessary for the conduct of astronomy at all wavelength fields. Experimental Astronomy publishes full-length articles, research letters and reviews on developments in detection techniques, instruments, and data analysis and image processing techniques. Occasional special issues are published, giving an in-depth presentation of the instrumentation and/or analysis connected with specific projects, such as satellite experiments or ground-based telescopes, or of specialized techniques.
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