专用集成电路
炸薯条
探测器
物理
碲锌镉
同步加速器
动态范围
计算机科学
计算机硬件
光电子学
光学
电信
作者
M. J. Williams,P. Busca,M. Collonge,P. Fajardo,P. Fischer,Thierry Martin,M. Ritzert,Marie Ruat,D. Schimansky
标识
DOI:10.1109/nss/mic44867.2021.9875717
摘要
The ESRF Extremely Brilliant Source (EBS) is the first fourth-generation high-energy synchrotron facility worldwide. Next-generation sources of synchrotron radiation pose significant challenges for 2D pixelated X-ray detectors. In particular, scattering and diffraction experiments require fast detectors with a high dynamic range, from single-photon sensitivity to pile-up conditions under high photon fluxes of up to 10 9 Mphpixel −1 s −1 . The XIDER project aims to fulfil the needs of these high-energy applications by implementing a novel on-chip incremental digital integration readout scheme. XIDER detectors seek to operate efficiently under the high-flux EBS beam of up to 100keV photons, with a time resolution that can cope with near-continuous and pulsed beams of up to 5.7MHz. The first XIDER prototypes have been recently assembled by hybridising 1mm cadmium-telluride sensors with a custom-designed ASIC readout chip in TSMC 65nm, realising the first implementation of an on-chip digital integration readout scheme. These prototypes are functional and characterisation measurements have begun, including irradiation using X-ray sources.
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