Title :
Preparation and characterization of impregnated Y2O3-W Matrix Scandate Cathode
Author :
Fan Yang ; Jinshu Wang ; Wei Liu ; Yiman Wang ; Meiling Zhou
Author_Institution :
Sch. of Mater. Sci. & Eng., Beijing Univ. of Technol., Beijing, China
Abstract :
Impregnated Y2O3 Doped Tungsten Matrix Scandate Cathode was prepared by impregnating Y2O3-W matrix with barium-aluminum-scandate. The zero current density J0 of the cathode at 900oCb has reached 14.63A/cm2 and secondary emission yield δ is 3.51 after being optimally activated, both higher than the emission performances of Ba-W dispenser cathode. Auger electron spectroscopy result indicates that Sc, Ba and O diffuses from the interior porous body to surface simultaneously to form a “Ba-Sc-O” active substance layer, which lowers the work function of the cathode, and the increase of Y2O3 content will contribute to the formation of n-type semiconductor, which enhances the electric conductivity of the cathode, thus the emission performance of the cathode has been improved.
Keywords :
Auger electron spectroscopy; barium compounds; cathodes; electrical conductivity; secondary electron emission; tungsten; yttrium compounds; Auger electron spectroscopy; Ba-Sc-O; Ba-W; Y2O3-W; dispenser cathode; electric conductivity; impregnated scandate cathode; secondary emission yield; Cathodes; Electron emission; Magnetrons; Materials; Temperature; Thermionic emission; Tungsten; Cathode; Secondary electron emission; Y2O3;
Conference_Titel :
Vacuum Electronics Conference, IEEE International
Conference_Location :
Monterey, CA
DOI :
10.1109/IVEC.2014.6857487
