Title :
Modification of the dispenser cathode surface with a pulse plasma
Author :
Lee, I.P. ; Maslennikov, O.Yu. ; Roukhlyada, N.Y.
Author_Institution :
Sci. Res. Centre of Vladykino Mech. Plant, Moscow, Russia
Abstract :
When producing electronic vacuum devices an urgent problem is to improve the output cathode parameter, i.e. to increase the thermoionic emission current density, the cathode life duration and the secondary electron emission coefficient. A new technique of the surface cathode treatment with a pulse plasma is suggested to improve the emission cathode parameters. The original and pulse plasma irradiated dispenser cathode surfaces are studied by electron microscopy. It is clear that the original surface has a pronounced microrelief. The treated surface exhibits a mesh structure improving thermoionic and secondary emission cathode characteristics. The secondary emission has increased 1.5 fold. The work function has decreased by 0.15 eV.
Keywords :
electron microscopy; plasma materials processing; secondary electron emission; surface treatment; thermionic cathodes; thermionic electron emission; vacuum microelectronics; vacuum tubes; work function; dispenser cathode surface; electron microscopy; electron vacuum device; mesh structure; pulse plasma; secondary emission cathode; surface treatment; thermoionic emission cathode; work function; Cathodes; Circuits; Electron emission; Microscopy; Nuclear electronics; Plasma density; Plasma devices; Plasma properties; Power engineering; Surface treatment;
Conference_Titel :
Vacuum Electronics, 2003 4th IEEE International Conference on
Print_ISBN :
0-7803-7699-4
DOI :
10.1109/IVEC.2003.1286337
