作为反扩散探针的阿尔法探测

1994 Proceedings of IEEE International Carnahan Conference on Security Technology Pub Date : 1994-10-12 DOI:10.1109/CCST.1994.363803

J. E. Koster, J. P. Johnson, D. Macarthur, S. G. Walters

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引用次数: 2

摘要

特殊核材料(SNM)存在的指示可以通过检测SNM衰变中的α粒子来获得。目前探测α粒子的技术有许多局限性。灵敏的常规SNM痕量检测涉及非现场实验室分析，但缺乏现场确认。另一方面，可现场检测的仪器比较精密，灵敏度较差。新的远程阿尔法探测(LRAD)技术减轻了这些限制。基于lrad的仪器依赖于对一个发射的α粒子在周围空气中产生的数十万个离子的检测。离子可以在比原始α粒子的范围大得多的距离上被传输到离子探测器。基于lrad的监测仪具有灵敏度高、响应快(实时)、坚固可靠等特点。许多设计都是非常便携的。在本文中，确定了几种情况下，特定的基于lrad的探测器可以提供扩散活动的确认。

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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Alpha detection as a probe for counter proliferation

An indication of the presence of special nuclear material (SNM) can be obtained by the detection of alpha particles from the decay of the SNM. Current techniques for detecting alpha particles have a number of limitations. Sensitive conventional detection of SNM traces involves off-site laboratory analysis-but at the loss of an on-site confirmation. Fieldable detection instruments, on the other hand, are delicate and have poor sensitivity. New long-range alpha detection (LRAD) technology mitigates these limitations. An LRAD-based instrument relies an the detection of the hundreds of thousands of ions produced in ambient air by one emitted alpha particle. The ions can be transported to an ion detector at a distance much greater than the range of the original alpha particle. The LRAD-based monitors have the characteristics of high sensitivity, fast (real-time) response, ruggedness, and reliability. Many of the designs are quite portable. In this paper, several scenarios are identified for which particular LRAD-based detectors can provide confirmation of proliferation activity.<>

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来源期刊

1994 Proceedings of IEEE International Carnahan Conference on Security Technology

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