强激光与粒子束, 2019, 31 (1): 012001, 网络出版: 2019-04-28  

大功率脉冲氙灯用稀土钨电极工作表面分析

Surface analysis after working with rare earth tungsten electrode for high-power pulsed Xenon lamp
作者单位
1 北京工业大学 材料科学与工程, 北京 100022
2 中国工程物理研究院 核物理与化学研究所, 四川 绵阳 621900
摘要
为探讨电极表面发生变化的原因和烧蚀机理, 为提升电极工作稳定性提供理论依据, 分析了经过上万发次点灯测试的大功率脉冲氙灯稀土钨电极的表面形貌、元素深度分布及价态。结果表明:工作后的电极表面出现大量裂纹以及烧蚀坑; 表面各元素主要由W,La,O三种元素组成, 分布均匀; 电极表面La以La3+形式存在, W存在原子态和+6价两种价态, 占比分别为18.29%和81.71%; 随刻蚀深度增加后, La的价态仍为+3价, W6+迅速减少直至W价态全部变为W0。
Abstract
The material selected for the experiment is the high power pulsed Xenon lamp rare earth tungsten electrode after operation. Analysis of appearance, element distribution and elemental valence of rare earth tungsten electrode surface and etched at different depths. Experimental results show that: After the work, there were many cracks on the surface of the electrode and ablation pits. The elements on the surface were evenly distributed and consisted of three elements: W, La, and O.The electrode surface La exists in the form of La3+, W has two valence states W0 and W6+, where W6+ accounts for the majority; After the ion etching, the valencestate of La is still La3+, W still has two types of W0 and W6+, but W0 accounts for the most; After the etching depth increases, the valence state of tungsten becomes W0.

高志坤, 杨建参, 郝万立, 付宝刚. 大功率脉冲氙灯用稀土钨电极工作表面分析[J]. 强激光与粒子束, 2019, 31(1): 012001. Gao Zhikun, Yang Jiancan, Hao Wanli, Fu Baogang. Surface analysis after working with rare earth tungsten electrode for high-power pulsed Xenon lamp[J]. High Power Laser and Particle Beams, 2019, 31(1): 012001.

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