M. Dion, G. Denolfo, S. Hunter, S. Son, N. Guardala
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引用次数: 10
摘要
本文介绍了NASA/GSFC和NSWC/Carderock正在研制的用于探测特殊核材料的中子成像照相机(NIC)。NIC是一个独立的、健壮的、全方位的、与3he无关的中子探测器,基于GSFC开发的用于伽马射线天体物理学应用的三维跟踪成像仪(3-DTI)技术。3-DTI是一个大体积的时间投影室,为带电粒子的三维跟踪提供~ 0.4 mm的分辨率。利用甲烷(CH4)单散射和双散射产生的质子动量和能量,重构了0.1 MeV < En < 10 MeV的快中子入射方向。我们给出了由实验室和加速器测试得出的NIC的角和能量分辨率。
We describe the Neutron Imaging Camera (NIC) being developed for the detection of special nuclear materials by NASA/GSFC and NSWC/Carderock. The NIC is a self-contained, robust, omni-directional and 3He-independent neutron detector based on the Three-Dimensional Track Imager (3-DTI) technology developed at GSFC for gamma-ray astrophysics applications. The 3-DTI is a large volume time-projection chamber that provides ∼ 0.4 mm resolution for the 3-D tracking of a charged particle. The incident direction of fast neutrons, 0.1 MeV < En < 10 MeV, are reconstructed from the momenta and energies of protons resulting from single and double scatters on methane (CH4). We present angular and energy resolution of the NIC derived from laboratory and accelerator testing.
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