猎户座激光靶室的专用污染实验

J. Andrew, J. Chevalier, D. Egan, A. Geille, J. Jadaud, J. Quessada, D. Raffestin, M. Rubery, P. Treadwell, L. Videau
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引用次数: 0

摘要

利用聚焦高能、高功率激光束照射在真空靶室中的固体目标来研究高密度、高压和高温下物质的特性是众所周知的。这些相互作用的不良副作用是产生固体、液体和气体物质的羽流,这些物质从目标和覆盖或物理损坏目标腔内的表面。这些腔室中最大孔径的表面通常是用于产生所研究的极端条件的大型、高规格光学元件(例如大孔径离轴抛物线、非球面透镜、X射线光学元件和平面碎片屏蔽)。为了研究这些羽流及其产生的影响,通过使用金属见证板、聚合物见证板、纤维测速仪和低密度泡沫颗粒捕集器的组合诊断仪器,进行了一组专门的实验来评估目标产品涂层分布和颗粒速度。
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Dedicated contamination experiments in the Orion laser target chamber
The use of solid targets irradiated in a vacuum target chamber by focussed high energy, high power laser beams to study the properties of matter at high densities, pressures and temperatures are well known. An undesirable side effect of these interactions is the generation of plumes of solid, liquid and gaseous matter which move away from the target and coat or physically damage surfaces within the target chamber. The largest aperture surfaces in these chambers are usually the large, high specification optical components used to produce the extreme conditions being studied [e.g. large aperture off axis parabolas, aspheric lenses, X ray optics and planar debris shields]. In order to study these plumes and the effects that they produce a set of dedicated experiments were performed to evaluate target by product coating distributions and particle velocities by a combined diagnostic instrument that utilised metal witness plates, polymer witness plates, fibre velocimetry and low density foam particle catchers.
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