Title :
Negative conductance of diodes on gallium nitride microcathodes
Author :
Goncharuk, N.M. ; Karushkin, N.F. ; Orehovskiy, V.A. ; Malyshko, V.V.
Author_Institution :
State Enterprise Res. Inst. “Orion”, Kiev, Ukraine
Abstract :
Small-signal negative conductance of a diode on AlGaN micro-cathode, which results from delay of both processes - electron emission and its transit in a vacuum layer, has been studied theoretically. Its periodic dependence on both of delay angles leads to a multiband structure of diode negative conductance spectrum, when the upper angle of emission delay in the spectrum exceeds the same of a transit delay. Owing to sufficiently great electric field values and electron velocity in vacuum the negative conductance of the diode is in terahertz frequency range. The longer the emission delay time, the lesser its value and diode optimal frequency are.
Keywords :
aluminium compounds; cathodes; diodes; electric admittance; electric fields; gallium compounds; AlGaN; delay angles; diode negative conductance spectrum; diode optimal frequency; electric field values; electron emission; electron velocity; emission delay time; gallium nitride microcathodes; multiband structure; negative conductance; small-signal negative conductance; terahertz frequency range; vacuum layer; Aluminum gallium nitride; Delays; Electronic mail; Optimized production technology; Oscillators; Physics; Semiconductor diodes;
Conference_Titel :
Microwave and Telecommunication Technology (CriMiCo), 2013 23rd International Crimean Conference
Conference_Location :
Sevastopol
Print_ISBN :
978-966-335-395-1
