id	author	title	date	pages	extension	mime	words	sentences	flesch	summary	cache	txt
work_oxahoyaoozcz3ngm52bvnortcy	J.M. Mihaly	Imaging Ejecta and Debris Cloud Behavior Using Laser Side-lighting	2013.0	6	.pdf	application/pdf	3457	249	55	Imaging Ejecta and Debris Cloud Behavior Using Laser Side-Lighting Imaging Ejecta and Debris Cloud Behavior Using Laser Side-Lighting The Caltech Small Particle Hypervelocity Impact Range (SPHIR Facility) utilizes a two-stage, light gas gun to accelerate Nylon 6/6 right An optical technique was employed to produce images of the hypervelocity impact event with short direction, to provide a series of shadowgraph images of the impact on the target. Keywords: High-Speed Imaging, Laser Shadowgraph, Debris Cloud, Ejecta photography has also provided an alternative to the imaging of hypervelocity impact debris formation [6]. The use of collimated light not only enables high-speed imaging of the event with low techniques such as schleiren imaging [12] and Coherent Gradient Sensing [13] to measure the impact phenomena. [4] Piekutowski, A.J., Characteristics of Debris Clouds Produced by Hypervelocity Impact of Aluminum Spheres with Thin Aluminum Plates, International	./cache/work_oxahoyaoozcz3ngm52bvnortcy.pdf	./txt/work_oxahoyaoozcz3ngm52bvnortcy.txt