稀薄流中的光学诊断法(英文)

Optical Diagnostics in Rarefied Flows

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摘要综述了ONERA(法国宇航院)在高超声速流中采用激光或电子束等光学技术实现非接触式精确测量上已取得的进展。点、视线和成像测量均属可能。点的测量采用X射线辐射和相干反 -Stokes Raman散射(CARS)探测的电子束荧光(EBF)实现。不要求空间分辨率时,二极管激光吸收分光术给出沿一条线集成的结果。采用高能脉冲电子枪的EBF成像术也很有成效。在多种高超声速高焓设备中,旋转和振动的氮和氧化氮总量以及在激波和边界层中分辨旋转态的速度也都已做了测量。 This article reviews the instrumental developments accomplished at ONERA in order to perform precise non-intrusive measurements of hypersonic flows using laser- and electron-beam-based optical techniques. Point line of sight and imaging measurements are possible. Point measurements have been implemented with Electron Beam Fluorescence （EBF） using detection of X-ray radiation and Coherent anti-Stokes Raman Scattering （CARS）. When spatial resolution is not required, diode laser absorption spectroscopy yields results integrated along a line. EBF imaging using a high energy pulsed electron gun is also quite promising. Rotational and vibrational populations of nitrogen and nitric oxide have been measured in various hypersonic hyperenthalpic facilities, as well as rotational state-resolved velocities in shocks and boundary layers.

作者 Jean-Pierrer TARAN

机构地区 ONERA

出处《Chinese Journal of Aeronautics》 SCIE EI CAS CSCD 2006年第2期151-159,共9页 中国航空学报（英文版）

关键词高超声速光学测量 CARS 电子束荧光激光吸收 hypersonics optical measurements CARS EBF lasers absorption

分类号 V219 [航空宇航科学与技术—航空宇航推进理论与工程]

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Chinese Journal of Aeronautics

2006年第2期

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稀薄流中的光学诊断法(英文)

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