He self-pumping by tokamak pump limiter materials: Al, V, Ni, and Ni/Al alloys
[Proceedings] The 14th IEEE/NPSS Symposium Fusion Engineering
Pub Date : 1991-09-30
DOI:10.1109/FUSION.1991.218833
引用次数: 1
Abstract
An ECR (electron cyclotron resonance) plasma and Colutron ion gun were used to study He self-pumping by several possible pump-limiter materials: Ni, V, Al, and Ni/Al multilayers. Ni and V exhibited similar pumping capacities (6*10/sup 15/ He/cm/sup 2/, 200 eV), whereas Al showed a reduced capacity (6*10/sup 14/ He/cm/sup 2/, 200 eV) due to increased sputtering. An He retention model based on ion implantation ranges and sputtering rates agreed with the experimental data. The pumping efficiency increased significantly with ion energy. A novel multilayer/bilayer pumping concept showed improved pumping above that for single-element films. D/He trapping site competition is more important in V than in Ni. However, D/He site competition in V was shown to be less important above 400 degrees C where hydride decomposition is enhanced.<托卡马克自抽浦限制材料:Al、V、Ni和Ni/Al合金
利用电子回旋共振等离子体和离子枪研究了几种可能的泵浦限制材料:Ni、V、Al和Ni/Al多层膜对He的自抽运。Ni和V表现出相似的抽吸能力(6*10/sup 15/ He/cm/sup 2/, 200 eV),而Al由于溅射增加而表现出降低的抽吸能力(6*10/sup 14/ He/cm/sup 2/, 200 eV)。基于离子注入范围和溅射速率的He保留模型与实验数据吻合。随着离子能量的增加,泵浦效率显著提高。一种新的多层/双层泵送概念比单元素膜的泵送效果更好。V中D/He诱捕位点的竞争比Ni中更重要。然而,在400℃以上,V中的D/He位点竞争被证明不那么重要,在400℃以上,氢化物分解被增强
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