Title :
GaN solid state electron emitter
Author :
Akinwande, A.I. ; Horning, R.D. ; Goldenberg, B.L. ; Ruden, P.P. ; King, J.
Author_Institution :
Honeywell Inc., Bloomington, MN, USA
fDate :
July 30 1995-Aug. 3 1995
Abstract :
Summary form only given. Recent developments in vacuum microelectronics have led to a resurgence of interest into cold cathode emission for applications to a variety of electronic devices. The devices include microwave vacuum transistors and tubes, cathodoluminescent flat panel displays, pressure sensors, high temperature and radiation hardened electron devices. For these new applications, the ideal cold cathode should have the following characteristics: (i) low-voltage operation (5-20 volts), (ii) high current density (5-10 A/cm/sup 2/), (iii) room temperature operation and (iv) stable and durable operation. We describe a low voltage, room temperature electron emitter that is based on the AlGaN UV opto-electronic cathode. It consists of an ultra-violet light emitting diode (UV-LED) in direct contact with a photoemitter.
Keywords :
III-V semiconductors; cathodes; current density; electron field emission; gallium compounds; vacuum microelectronics; 5 to 20 V; AlGaN; AlGaN UV opto-electronic cathode; GaN; UV-LED; cold cathode emission; high current density; light emitting diode; low-voltage operation; photoemitter; room temperature operation; solid state electron emitter; stable operation; ultra-violet LED; vacuum microelectronics; Cathodes; Electron guns; Electron tubes; Flat panel displays; Gallium nitride; Microelectronics; Microwave devices; Microwave transistors; Solid state circuits; Temperature sensors;
Conference_Titel :
Vacuum Microelectronics Conference, 1995. IVMC., 1995 International
Conference_Location :
Portland, OR, USA
Print_ISBN :
0-7803-2143-X
DOI :
10.1109/IVMC.1995.487093
