Effect of oxygen or copper impurities on the work function of cesiated surfaces under co-existence with hydrogen: A study about negative hydrogen ion sources for neutral beam injection systems

•First time studying the effects of impurities on work function of Cs/H/Mo system using DFT method.•A large number of random samples were taken in the configuration space and statistical analysis was carried out.•At densities of oxygen and copper below 5 × 1014 cm−2, the work function of Cs0.5/H0.5/...

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Published in:Nuclear materials and energy 2024-12, Vol.41, p.101792, Article 101792
Main Authors: Li, Heng, Zhang, Xin, Xu, Yuhong, Lei, Guangjiu, Liu, Sanqiu, Tsumori, Katsuyoshi, Nakano, Haruhisa, Osakabe, Masaki, Isobe, Mitsutaka, Okamura, Shoichi, Shimizu, Akihiro, Ogawa, Kunihiro, Takahashi, Hiromi, Cui, Zilin, Hu, Jun, Zhu, Yiqin, Li, Xiaolong, Zheng, Huaqing, Liu, Xiaoqiao, Geng, Shaofei, Chen, Xiaochang, Liu, Haifeng, Wang, Xianqu, Liu, Hai, Tang, Changjian, team, CFQS
Format: Article
Language:English
Subjects:
Cesiated surface
DFT
Dipole moment
Impurity adsorption
Work function
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Summary:•First time studying the effects of impurities on work function of Cs/H/Mo system using DFT method.•A large number of random samples were taken in the configuration space and statistical analysis was carried out.•At densities of oxygen and copper below 5 × 1014 cm−2, the work function of Cs0.5/H0.5/Mo can be further reduced.•The oxygen impurities above the cesium layer significantly reduces the work function was first reported. This study investigates the effect of oxygen and copper impurities on the work function of the Cs/H/Mo (001) surface based on the Density Functional Theory (DFT) method. First, the deposition of 2/16 θ impurities on the Cs0.5/H0.5/Mo (001) surface (the subscript 0.5 represents 8/16 θ coverage) is studied. It is found that the deposition of impurities beneath the cesium layer and oxygen impurities as atoms, and in a high-symmetry configuration, both lower the surface system energy. As the impurity coverage increases, it is observed that impurity deposition with a coverage of less than or equal to 8/16 θ effectively reduces the work function of the Cs0.5/H0.5/Mo (001) surface. However, as the cesium and hydrogen coverage increases, the impurities are no longer effective at reducing the work function. Moreover, when the cesium coverage reaches 16/16 θ, the surface work function approaches that of a cesium metal surface. Another important discovery is that when oxygen impurities are deposited above the cesium layer on the Cs0.5/H0.5/Mo (001) surface, a reduction in the surface work function is observed. This anomalous phenomenon is attributed to significant charge polarization caused by the deposition of oxygen impurities. The migration barriers of impurities traversing the dense cesium layer to the Mo (001) substrate are evaluated using the climbing image nudged elastic band (CI-NEB) method. Oxygen impurities tend to traverse the cesium layer in molecular form, facing a minimum barrier of 0.52 eV, while copper atoms encounter a lower barrier of 0.09 eV when traversing the cesium layer.
ISSN:2352-1791
2352-1791
DOI:10.1016/j.nme.2024.101792