The Electron Beam Fluorescence Probe in Experimental Gas Dynamics

E. Muntz, S. Abel, B. Maguire
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引用次数: 16

Abstract

The use in experimental gas dynamics of the electron beam fluorescence technique has been discussed. The several successes of this probing method have not been exhaustively reviewed; rather, emphasis has been placed on those aspects of an energetic electron beam's interactions with a gas that are not yet satisfactorily understood. The uncertainties which presently inhibit the development of the technique's full capabilities have been specified. It has been shown that many of the principal problems associated with the beam probe originate in the emission excited by secondary electrons. Also, in some cases, diffusion of the beam excited fluorescence as a result of resonance transitions can be a concern. The desirability of undertaking studies that will extend the technique's present operating range and accuracy has been emphasized. A simplified instrument (Rotational Temperature Apparatus) previously described by two of the present authors for measuring static temperatures in nitrogen flows has been optimized. It was found that for an error estimation based on the statistics of counting photons the optimum instrument comprised two narrow pass band interference filters each with a half width of about 8Å.
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电子束荧光探针在实验气体动力学中的应用
讨论了电子束荧光技术在实验气体动力学中的应用。这种探测方法的几次成功尚未得到详尽的审查;相反,重点放在高能电子束与气体相互作用的那些尚未令人满意地理解的方面。目前阻碍该技术全面发展的不确定因素已被详细说明。研究表明,与束流探针有关的许多主要问题都是由二次电子激发的发射引起的。此外,在某些情况下,由于共振跃迁,光束激发荧光的扩散可能是一个问题。人们强调了进行研究以扩大该技术目前的操作范围和准确性的必要性。一个简化的仪器(旋转温度仪)以前描述的两个作者在氮气流动中测量静态温度已被优化。结果表明,对于基于计数光子统计的误差估计,最佳仪器由两个半宽约为8Å的窄带干涉滤光片组成。
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