硼对活性中子测量的影响:在火星科学实验室中子动态反照率仪上的应用

Suzanne N. Nowicki, S. Festal, S. Czarnecki, C. Hardgrove, P. Gasda
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引用次数: 0

摘要

“好奇号”火星科学实验室(MSL)火星车上的中子动态反照率(DAN)实验的主要目标是在火星车穿越火星表面时评估氢的含量。因为氢是一种轻元素,它是中子的有效慢化剂。利用脉冲中子发生器作为激活源,与热中子探测器耦合,测量土壤表面发射的热中子计数率,是DAN仪器估算氢含量的方法。然而,硼具有较高的热中子捕获截面,会影响DAN仪器测量的热中子通量。最近,MSL ChemCam仪器显示,Murray地层和Yellowknife湾的矿脉中含有高浓度的B,浓度为100至500 ppm。我们表明,在火星土壤中捕获的中子数量随着B的增加而增加,导致DAN热中子探测器观察到的计数率降低,这可能导致对氢含量的高估。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The Effect of Boron on Active Neutron Measurements: Application for the Mars Science Laboratory Dynamic Albedo of Neutrons Instrument
The primary objective of the Dynamic Albedo of Neutrons (DAN) experiment on board the Mars Science Laboratory (MSL) rover Curiosity is to assess the hydrogen content as the rover traverses the Martian surface. Because hydrogen is a light element, it is an efficient moderator for neutrons. The method used to estimate the hydrogen content by the DAN instrument is to measure the thermal neutron count rate emitted from the surface of the soil using a Pulsed Neutron Generator as an activation source coupled with a thermal neutron detector. However, boron has a high cross section for thermal neutron capture and can affect the thermal neutron flux measured by the DAN instrument. Recently, the MSL ChemCam instrument has shown high concentrations of B in the veins of the Murray formation and Yellowknife Bay at concentrations of 100 to 500 ppm. We show that the number of neutrons that are captured in the Martian soil increases with increasing B, resulting in reduced count rates observed by the DAN thermal neutron detector, which can lead to an overestimate of the hydrogen content.
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