Developments of scientific CMOS as focal plane detector for Einstein Probe mission

机译：科学CMOS作为爱因斯坦探测任务的焦平面探测器的发展

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China's Einstein Probe (EP) mission is designed for time-domain astrophysics with energy band of 0.5-4 keV. The payloads of EP include a wide-field X-ray telescope (WXT) and a follow-up X-ray telescope (FXT). The field of view (FOV) of WXT is about 3600 square degrees with sensitivity at least 10 times better than traditional X-ray all-sky monitors applying collimators or coded-masks. Back-side illuminated scientific CMOS (BSI sCMOS) is the best choice for WXT after several types of X-ray detectors are investigated. In this work, we study a BSI sCMOS sensor. GSENSE400BSI developed by Gpixel Inc.. which is treated as a pathfinder for the focal plane detector of WXT. GSENSE400BSI has a pixel array of 2048×2048 with pixel size of 11 μm. We have characterized this BSI sCMOS as an X-ray detector. Based on the excellent performance of GSENSE400BSI, a new BSI sCMOS device with large sensitive area of 6×6 cm~2 has been proposed as the focal plane detector for WXT.

机译：中国的爱因斯坦探测（EP）任务是为时域天体物理学设计，能源带为0.5-4 keV。 EP的有效载荷包括宽野X射线望远镜（WXT）和后续X射线望远镜（FXT）。 WXT的视野（FOV）大约3600平方度，灵敏度至少超过传统的X射线全天监视器施加准直器或编码掩模的敏感性。背面照亮科学CMOS（BSI SCMOS）是在研究了几种类型的X射线探测器之后WXT的最佳选择。在这项工作中，我们研究了BSI SCMOS传感器。 GSENSE400BSI由GPIXEL INC开发..这被视为WXT的焦平面检测器的探测器。 GSENSE400BSI具有2048×2048的像素阵列，像素大小为11μm。我们已经表征了这款BSI SCMOS作为X射线探测器。基于GSENSE400BSI的优异性能，已经提出了一种具有大敏感面积为6×6cm〜2的新BSI SCMOS装置作为WXT的焦平面检测器。

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《SPIE Astronomical Telescopes + Instrumentation Conference》|2018年|v. p.|共9页
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Wenxin Wang; Zhixing Ling; Chen Zhang; Xinyang Wang; Qiong Wu; Zhenqing Jia; Weimin Yuan; Shuangnan Zhang;
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中图分类天文学;
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Einstein Probe (EP) mission; wide-field X-ray telescope; semiconductor detector; back-side illuminated sCMOS; X-ray detector;

机译：爱因斯坦探针（ EP）任务;宽视场的X射线望远镜;半导体检测器;背照 SCMOS;X 射线检测器;

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专利

1. Smart CMOS focal plane arrays: a Si CMOS detector array andsigma-delta analog-to-digital converter imaging system [J] . Joo Y., Park J., Thomas M., IEEE journal of selected topics in quantum electronics . 1999,第2期

机译：智能CMOS焦平面阵列：Si CMOS探测器阵列和sigma-delta模数转换器成像系统
2. Smart CMOS focal plane arrays: a Si CMOS detector array and sigma-delta analog-to-digital converter imaging system [J] . Joo Y., Park J. IEEE journal of selected topics in quantum electronics . 1999,第2期

机译：智能CMOS焦平面阵列：Si CMOS检测器阵列和sigma-delta模数转换器成像系统
3. The pn-CCD as focal plane detector for the XMM satellite mission [J] . H. Brauninger, H. Bottcher, W. Burkert, Metrologia: International Journal of Scientific Metrology: = Internationale Zeitschrift fur Wissenschaftliche Metrologie: = Journal International de Metrologie Scientifique . 1995,第5a6期

机译：pn-CCD作为XMM卫星任务的焦平面探测器
4. Developments of scientific CMOS as focal plane detector for Einstein Probe mission [C] . Wenxin Wang, Zhixing Ling, Chen Zhang, SPIE Astronomical Telescopes + Instrumentation Conference . 2018

机译：科学CMOS作为用于爱因斯坦探测任务的焦平面探测器的发展
5. On-chip Focal-Plane Compression for CMOS Image Sensors [D] . Wang, Yan. 2012

机译：CMOS图像传感器的片上焦平面压缩
6. Kepler Mission’s Focal Plane Characterization Models Implementation [O] . Christopher Allen, Todd Klaus, Jon Jenkins -1

机译：开普勒特派团的焦平面特征模型实现
7. Smart CMOS Focal Plane Arrays: A Si CMOS Detector Array and Sigma–Delta Analog-to-Digital Converter Imaging System [O] . Nan Marie Jokerst, Senior Member, D. Scott Wills 2008

机译：智能CmOs焦平面阵列：si CmOs检测器阵列和sigma-Delta模数转换器成像系统
8. Further Developments in Improved Sensitivity, Low-cost Uncooled IR Detector Focal Plane Arrays [R] . Sarney, W. L., Little, J. W., Olver, K. A., 2010

机译：改进的灵敏度，低成本非制冷红外探测器焦平面阵列的进一步发展

Developments of scientific CMOS as focal plane detector for Einstein Probe mission

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