Title :
Electron source design with CNT field-emitter cathode
Author_Institution :
IFQ, Otto-von-Guericke-Univ. Magdeburg, Magdeburg, Germany
Abstract :
Micro-sized electron source with field-emitter cathodes plays an important role for new vacuum triode applications. For these general applications an all-purpose electron source with carbon nanotube (CNT) field emitter and control grid for 10 mA was designed, developed and investigated. The miniaturization of the electron source was achieved by the use of a carbon nanotube field-emitter cathode (CNT buckypaper) and a micro grid, with a distance of only some ten micro-meters. Because of the threshold field strength for field emission of CNTs being in the range 1 ... 4 Vμm-1, the grid voltage can be low. In our contribution we discuss the influence of the micro grid on electron source properties, especially anode-field penetration through the micro grid, and micro-lensing effect.
Keywords :
carbon nanotubes; cathodes; electron field emission; electron sources; microlenses; triodes; vacuum microelectronics; CNT buckypaper; CNT field emitter; CNT field-emitter cathode; all-purpose electron source; anode-field penetration; carbon nanotube field emitter; carbon nanotube field-emitter cathode; control grid; electron source design; electron source property; field emission; field-emitter cathodes; grid voltage; microgrid; microlensing effect; microsized electron source; miniaturization; threshold field strength; vacuum triode applications; Anodes; Carbon nanotubes; Cathodes; Current measurement; Electron sources; Integrated circuits; Logic gates; carbon nanotube field-emitter; electron field-emission; electron source; field pentration; micro-lensing effect;
Conference_Titel :
Vacuum Nanoelectronics Conference (IVNC), 2011 24th International
Conference_Location :
Wuppertal
Print_ISBN :
978-1-4577-1243-2
Electronic_ISBN :
pending
