A new pad-based neutron detector for stereo coded-aperture thermal neutron imaging

2013 IEEE Nuclear Science Symposium and Medical Imaging Conference (2013 NSS/MIC) Pub Date : 2013-10-22 DOI:10.1109/NSSMIC.2013.6829416

I. Diószegi, B. Yu, G. Smith, N. Schaknowski, J. Fried, P. Vanier, C. Salwen, L. Forman

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Abstract

A new generation of coded aperture neutron imagers is being developed at Brookhaven National Laboratory. The detector of the camera is a position-sensitive thermal neutron chamber. The new device is a 3He-filled ionization chamber, which uses only anode and cathode planes. The anode is composed of an array of individual pads. The charge is collected on each of the individual 5×5 mm2 anode pads, (48×48 in total, corresponding to 24×24 cm2 sensitive area) and read out by application specific integrated circuits. The new design has several advantages for the coded-aperture applications in the field, compared to the previous generation of wire-grid based neutron detectors. Among these are its rugged design, lighter weight and use of non-flammable stopping gas. The pad-based readout is event by event, thus capable for high count rates, and also to perform data analysis and imaging on an event-by-event basis. The spatial resolution of the detector can be better than the pixel size by using charge sharing between adjacent pads. In this paper we report on the development and performance of the new, prototype pad-based neutron camera, and present the first stereoscopic coded aperture images of thermalized neutron sources.

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用于立体编码孔径热中子成像的新型板基中子探测器

布鲁克海文国家实验室正在开发新一代编码孔径中子成像仪。摄像机的探测器是一个位置敏感的热中子室。新装置是一个充满3he的电离室，它只使用阳极和阴极平面。阳极由一组单独的衬垫组成。电荷收集在每个单独的5×5 mm2阳极垫片上(总共48×48，对应于24×24 cm2敏感区域)，并由特定应用的集成电路读出。与上一代基于线栅的中子探测器相比，新设计在编码孔径应用方面具有几个优势。其中包括其坚固的设计，更轻的重量和使用不易燃的停止气体。基于pad的读出是一个事件接一个事件，因此能够实现高计数率，并且还可以在一个事件接一个事件的基础上执行数据分析和成像。利用相邻焊片之间的电荷共享，可以使探测器的空间分辨率优于像素大小。在本文中，我们报告了新型的原型板基中子相机的发展和性能，并展示了热化中子源的第一个立体编码孔径图像。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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2013 IEEE Nuclear Science Symposium and Medical Imaging Conference (2013 NSS/MIC)

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