Xiao-Peng Bi, Zhiwei Sun, T. Lau, Z. Alwahabi, G. Nathan
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引用次数: 0
Abstract
A laser-based technique is reported, employing simultaneous laser-induced fluorescence (LIF) and phosphorescence (LIP) to respectively mark the gas- and particle- phases and allow their simultaneous velocity measurement in a particle-laden flow. The technique discriminates the phases by optically separating the fluorescent and phosphorescent signals from each other and also from the scattering signals, thorough the novel use of optical filters and temporal separation. A proof-of-concept demonstration was conducted with using 250 μ m PMMA spherical particles and 4 μ m BAM:Eu 2+ phosphorescent tracers, suspended in a water cuvette. Under 355 nm excitation (3 rd harmonic of the Nd:YAG laser), both PMMA fluorescent and BAM:Eu 2+ phosphorescent signals are shown to be sufficiently strong for imaging with CCD cameras, and sufficiently separable with using spectral filters and temporal profiles.
本文报道了一种基于激光的技术,利用激光诱导荧光(LIF)和磷光(LIP)分别标记气相和颗粒相,并允许在颗粒负载流中同时测量它们的速度。该技术通过光学分离荧光和磷光信号以及散射信号来区分相位,通过光学滤光片和时间分离的新颖使用。使用250 μ m PMMA球形颗粒和4 μ m BAM:Eu 2+磷光示踪剂悬浮在水试管中,进行了概念验证演示。在355nm的激发下(Nd:YAG激光的三次谐波),PMMA荧光和BAM:Eu 2+磷光信号都显示出足够强,可以用CCD相机成像,并且可以用光谱滤波器和时间剖面充分分离。
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