A detector system for discrete nuclide identification of ions with A ⩽ 60

Nuclear Instruments and Methods in Physics Research Pub Date : 1984-08-01 DOI:10.1016/0167-5087(84)91338-3

K. Kwiatkowski, V.E. Viola Jr., W.G. Wilson, S.H. Zhou , H. Breuer

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引用次数: 2

Abstract

An x−y position-sensitive detector system which provides simultaneous mass and charge identification with discrete nuclide resolution is described. This system is specially suitable for low-energy, medium-mass (E₁ ≈ 1–10 MeV/mu; A ≈ 10–60) heavy tons. Charge identification is determined from a two-element gas-ionization counter coupled with a semiconductor stop detector. The gas-ionization counter employs a simple electron drift time technique to obtain two-dimensional position information. Mass identification is derived from measurement of the fragment time-of-flight with a pair of channel-plate time devices and the fragment energy, as provided by the ΔE_y – ΔE_x – E telescope. This system yields mass and charge resolution ⩽0.7 units in both A and Z and gives position resolutioon <0.5 mm for fragments with A ≲60, as determined from measurements performed with a 7.2 MeV/u ⁵⁶Fe beam incident on ²³⁸U.

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一种用于识别A≤60离子的离散核素的探测器系统

描述了一种x - y位置敏感探测器系统，该系统提供了离散核素分辨率的同时质量和电荷识别。本系统特别适用于低能、中质量(E1≈1-10 MeV/mu;A≈10-60吨重。电荷识别是由与半导体停止检测器耦合的双元素气体电离计数器确定的。气体电离计数器采用简单的电子漂移时间技术来获取二维位置信息。质量鉴定是利用一对通道板时间装置测量碎片飞行时间和碎片能量，由ΔEy - ΔEx - E望远镜提供。该系统在A和Z上的质量和电荷分辨率均为0.7单位，对于A > 60的碎片，其位置分辨率为<0.5 mm，这是由入射到238U上的7.2 MeV/u的56Fe光束测量确定的。

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Nuclear Instruments and Methods in Physics Research

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