飞马座的直线粒子场全息术

D. Sorenson, A. Obst, N. King, A. Scannapieco, H. Lee, M. Sheppard, J. Roberts, D. Platts, A. Taylor, S. Watson, M. Hockaday, B. Malone, C. Ciarcia, B. Frogget, D. Westley, R. Flurer, P. Watts, K. Peterson, B. Pritchett, D. Malson, D. Crain
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引用次数: 7

摘要

在位于洛斯阿拉莫斯国家实验室的帕伽索斯设施中,开发了一种用于流体动力学实验的在线全息成像系统。全息术提供了独特的能力来记录粒子在三维体积上的分布。所讨论的系统用于测量直径5.0 cm,高2.0 cm的圆柱形铝衬垫撞击直径3.0 cm的目标后喷出物的颗粒分布。喷射物从目标中喷出,速度可达7mm //spl μ /s,并向系统的轴心移动,在此进行全息成像。直线全息术特别适合于飞马座脉冲功率设施,在那里几何限制使得离轴全息术不切实际。为了记录快速运动的粒子,实现了一种倍频Nd:YAG激光系统,该系统在532 nm处产生80 ps 20毫焦耳脉冲。本文研制了一种由傅里叶光学透镜对组成的光学中继系统,该系统放置在距离感兴趣区域中心4.0 cm处。这个中继透镜对在距离物体平面32厘米处形成一个中间图像,全息图放置在距离中间图像下游4厘米处。讨论了全息系统及其分辨率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
In-line particle field holography at Pegasus
An in-line holographic imaging system has been developed for hydrodynamic experiments at the Pegasus facility located at Los Alamos National Laboratory. Holography offers the unique capability to record distributions of particles over a three dimensional volume. The system to be discussed is used to measure particle distributions of ejecta emitted after a cylindrical aluminum liner (5.0 cm in diameter, 2.0 cm high) impacts a target (3.0 cm in diameter). The ejecta emerge from the target traveling up to 7 mm//spl mu/s and moves toward the axial center of the system where the holographic imaging is performed. In-line holography is particularly suited for the Pegasus pulsed power facility where the geometry restrictions make off axis holography impractical. In order to record the fast moving particles a frequency-doubled Nd:YAG laser system has been implemented which produces a 80 ps 20 millijoule pulse at 532 nm. An optical relay system composed of a Fourier optical lens pair has been developed which is placed 4.0 cm from the center of the region of interest. This relay lens pair forms an intermediate image 32 cm from the object plane and the hologram is placed 4 cm downstream from the intermediate image. The holographic system and resolution capability is discussed.
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