基于象限雪崩光电二极管的31兆赫兹脉冲分辨多光子X射线探测。

Pulse-resolved multi-photon X-ray detection at 31 MHz based on a quadrant avalanche photodiode.

作者信息

Reusch Tobias, Osterhoff Markus, Agricola Johannes, Salditt Tim

机构信息

Institute for X-ray Physics, Georg-August University of Göttingen, Friedrich-Hund-Platz 1, 37077 Göttingen, Germany.

出版信息

J Synchrotron Radiat. 2014 Jul;21(Pt 4):708-15. doi: 10.1107/S1600577514006730. Epub 2014 Jun 3.

DOI:10.1107/S1600577514006730

PMID:24971964

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC4073958/

Abstract

The technical realisation and the commissioning experiments of a high-speed X-ray detector based on a quadrant avalanche silicon photodiode and high-speed digitizers are described. The development is driven by the need for X-ray detectors dedicated to time-resolved diffraction and imaging experiments, ideally requiring pulse-resolved data processing at the synchrotron bunch repetition rate. By a novel multi-photon detection scheme, the exact number of X-ray photons within each X-ray pulse can be recorded. Commissioning experiments at beamlines P08 and P10 of the storage ring PETRA III, at DESY, Hamburg, Germany, have been used to validate the pulse-wise multi-photon counting scheme at bunch frequencies ≥ 31 MHz, enabling pulse-by-pulse readout during the PETRA III 240-bunch mode with single-photon detection capability. An X-ray flux of ≥ 3.7 × 10(9) photons s(-1) can be detected while still resolving individual photons at low count rates.

摘要

描述了一种基于象限雪崩硅光电二极管和高速数字化仪的高速X射线探测器的技术实现和调试实验。这种探测器的开发是由对用于时间分辨衍射和成像实验的X射线探测器的需求驱动的，理想情况下需要以同步加速器束团重复频率进行脉冲分辨数据处理。通过一种新颖的多光子检测方案，可以记录每个X射线脉冲内确切的X射线光子数量。在德国汉堡DESY的储存环PETRA III的P08和P10光束线上进行的调试实验，已用于验证在束团频率≥31 MHz时的逐脉冲多光子计数方案，从而在PETRA III的240束团模式下实现具有单光子检测能力的逐脉冲读出。在低计数率下仍能分辨单个光子的同时，可检测到≥3.7×10⁹光子·秒⁻¹的X射线通量。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/34af/4073958/d88c1dbd6ab7/s-21-00708-fig1.jpg

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基于象限雪崩光电二极管的31兆赫兹脉冲分辨多光子X射线探测。

Pulse-resolved multi-photon X-ray detection at 31 MHz based on a quadrant avalanche photodiode.

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