Title :
Characteristics of scandate-type cathode with sub-micron structure Sc2O3 doped tungsten bodies
Author :
Yuan, Haiqing ; Gu, Xin ; Pan, Kexin ; Wang, Yiman ; Liu, Wei ; Zhang, Ke ; Wang, Jingshu ; Zhou, Meilin ; Li, Ji
Author_Institution :
Beijing Vacuum Electron. Res. Inst., China
Abstract :
Development and improvement of scandate-type cathode have been continuously in progress in last decade and recent years. Required by some new devices such as high power microwave sources, cathodes with current density of up to 100A/cm2 at low pulse durations and relevant lifetime are being developed. Scandate type cathode has shown the emission capability of approaching to 100A/cm2 or even more. Uniformization in emission, robustness in real environment and reproducibility in manufacturing process may be the major problems for their practical use. Based on previous study, we further developed the Scandia doping technique and cathode fabrication process. Cathodes with sub-micron structure Sc2O3 doped porous tungsten bodies have been successfully fabricated. Repeatable high emission properties were also verified for different batches of cathodes.
Keywords :
cathodes; current density; electron emission; electron sources; scandium compounds; semiconductor doping; tungsten; Sc2O3; Scandia doping technique; W; cathode fabrication process; current density; doped tungsten bodies; emission capability; high emission properties; low pulse durations; manufacturing process; power microwave sources; scandate-type cathode; submicron structure; Anodes; Cathodes; Current density; Doping; Fabrication; Materials science and technology; Powders; Shape; System testing; Tungsten;
Conference_Titel :
Vacuum Electron Sources Conference, 2004. Proceedings. IVESC 2004. The 5th International
Print_ISBN :
0-7803-8437-7
DOI :
10.1109/IVESC.2004.1414170
