Lithium electron work function: State of the art

被引:0
|
作者
B. B. Alchagirov
L. Kh. Afaunova
F. F. Dyshekova
R. Kh. Arkhestov
机构
[1] Berbekov Kabardino-Balkar State University,
来源
Technical Physics | 2015年 / 60卷
关键词
Lithium; Electron Work Function; 12Kh18N9T Stainless Steel; Lithium Surface; High Vacuum Distillation;
D O I
暂无
中图分类号
学科分类号
摘要
Main findings on the lithium electron work function in ultrahigh vacuum, including the results of the authors, are reviewed. The data were obtained by the Fowler absolute method on polycrystalline lithium samples with various purity grades. It turns out that published data for the emissivity and work function of the lithium electron are scarce. It is shown that when the purity of the initial material (LE-1 lithium) grows by an order of magnitude, the electron work function rises by 7–10% and its temperature coefficient decreases by six times in absolute value.
引用
收藏
页码:292 / 299
页数:7
相关论文
共 50 条
  • [21] The correlation between the electron work function and yield strength of metals
    Hua, Guomin
    Li, Dongyang
    PHYSICA STATUS SOLIDI B-BASIC SOLID STATE PHYSICS, 2012, 249 (08): : 1517 - 1520
  • [22] Recovery of lithium from mineral resources: State-of-the-art and perspectives - A review
    Li, Huan
    Eksteen, Jacques
    Kuang, Ge
    HYDROMETALLURGY, 2019, 189
  • [23] The potential of lithium in Quebec for the electric vehicle market: state of the art, opportunities and challenges
    Ibarra-Gutierrez, Sebastian
    Bouchard, Jocelyn
    Laflamme, Marcel
    Fytas, Konstantinos
    INTERNATIONAL JOURNAL OF MINING RECLAMATION AND ENVIRONMENT, 2022, 36 (01) : 68 - 80
  • [24] Effect of formation of a nanocrystalline structure on the electron work function and ion-electron emission of nickel
    R. Kh. Khisamov
    I. M. Safarov
    R. R. Mulyukov
    Yu. M. Yumaguzin
    L. R. Zubairov
    K. S. Nazarov
    Technical Physics, 2011, 56 : 1661 - 1664
  • [25] Potential application of electron work function in analyzing fracture toughness of materials
    Hao Lu
    Chenxin Ouyang
    Xianguo Yan
    Jian Wang
    Guomin Hua
    Reinaldo Chung
    D.Y.Li
    Journal of Materials Science & Technology, 2017, 33 (10) : 1128 - 1133
  • [26] Monitoring of the scorching of metal parts and tools by measuring the electron work function
    Oleshko V.S.
    Russian Engineering Research, 2012, 32 (7-8) : 585 - 586
  • [27] Calculation of the electron work function at metal surfaces by a density functional method
    Mamonova M.V.
    Prudnikov V.V.
    Russian Physics Journal, 1998, 41 (12) : 1174 - 1179
  • [28] Potential application of electron work function in analyzing fracture toughness of materials
    Lu, Hao
    Ouyang, Chenxin
    Yan, Xianguo
    Wang, Jian
    Hua, Guomin
    Chung, Reinaldo
    Li, D. Y.
    JOURNAL OF MATERIALS SCIENCE & TECHNOLOGY, 2017, 33 (10) : 1128 - 1133
  • [29] Microstructure - electron work function relationship: A crucial step towards "electronic metallurgy"
    Luo, Yuzhuo
    Tang, Yunqing
    Guo, Liqiu
    Li, D. Y.
    MATERIALS TODAY COMMUNICATIONS, 2021, 26
  • [30] Crystallographic anisotropy in surface properties of brass and its dependence on the electron work function
    Guo, Liqiu
    Lu, Hao
    Li, D. Y.
    Huang, Q. X.
    Wang, Xu
    Szpunar, J. A.
    JOURNAL OF APPLIED CRYSTALLOGRAPHY, 2018, 51 : 1715 - 1720
12345