Characteristics of a silicon carbide field emission array under pre-breakdown conditions
Morozov V.A. 1, Egorov N.V. 1, Trofimov V.V. 1, Nikiforov K.A. 1, Zakirov I.I. 2, Kats V.M. 1, Ilyin V.A. 3, Ivanov A.S. 3
1St. Petersburg State University, St. Petersburg, Russia
2Bonch-Bruevich St. Petersburg State University of Telecommunications, St. Petersburg, Russia
3St. Petersburg State Electrotechnical University “LETI", St. Petersburg, Russia
Email: v.morozov@spbu.ru

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This study assesses promising field electron sources based on silicon carbide monolithic field emission array (FEA). FEA is fabricated on single-crystal wafers of silicon carbide (0001C) 6H-SiC of n-type conductivity using the technology of two-stage reactive ion etching in SF6/O2/Ar atmosphere. To implement conditions close to breakdown, an experimental setup based on high-voltage narrow pulses generating device GKVI-300 was used. A series of nanosecond voltage pulses with amplitudes from 120 to 250 kV was generated. To study the characteristics of the FEA in the pre-breakdown state, the beam of field emitted electrons was separated from the ion torch or cathode plasma, formed in the following breakdown phases, by placing a 50-μm-thick titanium foil under zero potential into the interelectrode gap. Current-voltage characteristics of peak-currents vs. peak-voltages passing through the foil are close to rectilinear in the Fowler-Nordheim coordinates. The current-voltage characteristics plotted for each of the pulses along increasing and decreasing branches show a discrepancy (hysteresis). After the experiments, the silicon carbide cathode FEA was studied in a scanning electron microscope. Keywords: field electron emission, field emitter array, silicon carbide, pre-breakdown, high-voltage narrow pulses.
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