Suspended Nanoscale Field Emitter Devices for High-Temperature Operation
Lucia De Rose, Axel Scherer, William M. Jones
Abstract
In this work, we demonstrate suspended two- and four-terminal field emission devices for high-temperature operation. The planar structures were fabricated with tungsten on a 200-nm silicon nitride membrane. The insulator in the vicinity of the terminals was removed to minimize undesirable Frenkel-Poole emission and increase the resistance of leakage current pathways. The effects of temperatures up to 450 °C on Fowler-Nordheim emission characteristics and parasitic leakage resistance were studied. Turn-on voltages with magnitudes under 15 V that further decreased as a function of increasing temperature for the two-terminal device were reported. Gating at temperatures of 150 °C and 300 °C was shown for the four-terminal device, and corresponding transconductance and cutoff frequency values were computed.