Title :
Micro-Hollow Cathode Discharge (MHCD) MEMS arrays for high-current cold cathodes
Author :
Ortega, J.A. ; Hunt, Charles E. ; Quan Hu
Author_Institution :
ECE Dept., Univ. of California, Davis, Davis, CA, USA
Abstract :
Micro Hollow Cathode Discharge (MHCD) arrays, fabricated in silicon with Al2O3 or titanium silicide- coated cathodes, have been investigated for use as high-current, coldcathode electron sources. When arranged as large arrays, micron-scale MHCD´s have the potential to be used as electronbeam sources with current densities up into the A-cm-2 range. Analysis, simulations and experimental data show that a quantum-mechanical tunneling current through the aluminum oxide cathode coating (when made thin enough) allows the DC operation of a MHCD at modest vacuum using Ar. The high secondary-electron emission and low sputter yield, of Al2O3 leads to increases in the plasma electron density and cathode operating lifetimes, respectively. Preliminary data show a significant increase in current density under identical operating conditions, using the alumina dielectric-coated cathodes as compared with bare-silicon baseline cathodes.
Keywords :
electron density; electron emission; glow discharges; micromechanical devices; oxide coated cathodes; sputtered coatings; Al2O3; MEMS arrays; MHCD arrays; Si; alumina dielectric-coated cathodes; aluminum oxide cathode coating; bare-silicon baseline cathodes; cold cathode electron; electronbeam sources; high-current cold cathodes; microhollow cathode discharge arrays; micron scale MHCD; plasma electron density; quantum-mechanical tunneling current; secondary-electron emission; sputter yield; titanium silicide- coated cathodes; Artificial intelligence; Cathodes; Silicon; Titanium; Al2O3; MEMS; MHCD; Titanium Silicide;
Conference_Titel :
Vacuum Nanoelectronics Conference (IVNC), 2014 27th International
Conference_Location :
Engelberg
Print_ISBN :
978-1-4799-5306-6
DOI :
10.1109/IVNC.2014.6894807
