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

• Main Authors: Wang, Wenxin, Ling, Zhixing, Zhang, Chen, Wang, Xinyang, Wu, Qiong, Jia, Zhenqing, Yuan, Weimin, Zhang, Shuangnan
• Format: Conference Proceeding
• Language: English
• Published: SPIE 06.07.2018
• ISBN: 1510619518; 9781510619517
• ISSN: 0277-786X
• DOI: 10.1117/12.2311922

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 cm2 has been proposed as the focal plane detector for WXT.