Title :
Terahertz range diode based on electron field emission of AlGaN microcathode
Author :
Goncharuk, N.M. ; Malyshko, V.V. ; Orehovskiy, V.A. ; Karushkin, N.F.
Author_Institution :
RI Orion, Kiev, Ukraine
Abstract :
Small-signal negative conductance of a diode on AlGaN micro-cathode resulted from delay of electron both emission and transit in vacuum layer has been investigated. Its periodic dependence on both of delay angles leads to multiband structure of diode negative conductance spectrum when upper angle of emission delay in the spectrum exceeds the same of transit delay. Owing to sufficiently great values of electric field and electron velocity in vacuum the spectrum is in terahertz frequency range. Dependences of spectrum parameters, negative conductance maximum and its frequency on both of the delays have been found.
Keywords :
III-V semiconductors; aluminium compounds; cathodes; delays; electron field emission; gallium compounds; microelectrodes; submillimetre wave diodes; terahertz wave devices; wide band gap semiconductors; AlGaN; delay angles; diode negative conductance spectrum; electric field; electron delay; electron field emission; electron velocity; emission delay; microcathode; multiband structure; small-signal negative conductance; spectrum parameters; terahertz range diode; transit delay; vacuum layer; Aluminum gallium nitride; Delays; Electric fields; Impedance; Resistance; Semiconductor diodes; Time-frequency analysis; delay of emission and transit; electron field emission; galium nitride; microcathode; negative conductance; terahertz frequency range;
Conference_Titel :
Microwave Conference (EuMC), 2013 European
Conference_Location :
Nuremberg
