Dongsung Kim, H. Andrews, R. Fleming, J. Lewellen, K. Nichols, V. Pavlenko, D. Shchegolkov, E. Simakov
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引用次数: 3
摘要
本文介绍了金刚石场发射极阵列阴极产生高电流密度电子束的发散研究结果。在洛斯阿拉莫斯国家实验室(Los Alamos National Laboratory, LANL),我们制造并测试了微米级的钻石金字塔,其尖端为纳米级,可作为紧凑型介电激光加速器的电子束源。为了测量光束发散,我们组装了一个试验台,该试验台由DFEA阴极、一个小网格孔阳极和一个代表涂有ZnO (AZO)的蓝宝石盘的屏幕组成,用于光束可视化。阴极上施加约40 keV的负电压,栅极和屏幕保持在地面上。我们记录了与电子束尺寸相对应的光斑尺寸,这些光斑尺寸在不同的栅极到栅极的距离上通过AZO屏幕。我们还用通用粒子追踪器(GPT)进行了光束动力学模拟。在本文中,我们给出了实验测量和GPT模拟的结果,以及光束散度的计算。
Study of the Beam Divergence in Diamond Field Emitter Array Cathodes
We present the results of beam divergence studies for the diamond field emitter array (DFEA) cathodes producing high-current-density electron beams. At Los Alamos National Laboratory (LANL), we fabricate and test the micrometer-scale diamond pyramids with nanometer-scale sharp tips for use as an electron beam source for a compact dielectric laser accelerator. For the beam divergence measurements, we assembled a test stand consisting of a DFEA cathode, a small mesh aperture anode, and a screen representing of a sapphire disk coated with ZnO (AZO) for beam visualization. A negative voltage of about 40 keV is applied to the cathode, and the mesh and the screen are kept at ground. We record the spot size corresponding to the size of the electron beam on the AZO screen past the mesh anode at different mesh to screen distances. We also conduct the beam dynamics simulations with General particle Tracer (GPT). In this paper, we present the results of the experimental measurements and GPT simulations, along with calculations of the beam's divergence.
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