Workman J, Cobble J, Flippo K, Gautier D C, Montgomery D S, Offermann D T
Los Alamos National Laboratory, Los Alamos, New Mexico 87545, USA.
Rev Sci Instrum. 2010 Oct;81(10):10E520. doi: 10.1063/1.3485109.
High-energy x-rays, >10 keV, can be efficiently produced from ultrafast laser target interactions with many applications to dense target materials in inertial confinement fusion and high-energy density physics. These same x-rays can also be applied to measurements of low-density materials inside high-density Hohlraum environments. In the experiments presented, high-energy x-ray images of laser-shocked polystyrene are produced through phase contrast imaging. The plastic targets are nominally transparent to traditional x-ray absorption but show detailed features in regions of high density gradients due to refractive effects often called phase contrast imaging. The 200 TW Trident laser is used both to produce the x-ray source and to shock the polystyrene target. X-rays at 17 keV produced from 2 ps, 100 J laser interactions with a 12 μm molybdenum wire are used to produce a small source size, required for optimizing refractive effects. Shocks are driven in the 1 mm thick polystyrene target using 2 ns, 250 J, 532 nm laser drive with phase plates. X-ray images of shocks compare well to one-dimensional hydro calculations.
能量大于10千电子伏的高能X射线可通过超快激光与靶材的相互作用高效产生,在惯性约束聚变和高能密度物理中的致密靶材方面有诸多应用。这些相同的X射线也可用于测量高密度黑腔环境中的低密度材料。在本文介绍的实验中,通过相衬成像产生了激光冲击聚苯乙烯的高能X射线图像。塑料靶材对传统X射线吸收基本透明,但由于通常称为相衬成像的折射效应,在高密度梯度区域呈现出详细特征。200太瓦的三叉戟激光既用于产生X射线源,也用于冲击聚苯乙烯靶材。由2皮秒、100焦耳激光与12微米钼丝相互作用产生的17千电子伏X射线,用于产生优化折射效应所需的小源尺寸。使用带有相位板的2纳秒、250焦耳、532纳米激光驱动,在1毫米厚的聚苯乙烯靶材中驱动冲击波。冲击波的X射线图像与一维流体动力学计算结果吻合良好。