The aim of this work is to present the optimization of the gate trench module
for use in vertical GaN devices in terms of cleaning process of the etched
surface of the gate trench, thickness of gate dielectric and magnesium
concentration of the p-GaN layer. The analysis was carried out by comparing the
main DC parameters of devices that differ in surface cleaning process of the
gate trench, gate dielectric thickness, and body layer doping. . On the basis
of experimental results, we report that: (i) a good cleaning process of the
etched GaN surface of the gate trench is a key factor to enhance the device
performance, (ii) a gate dielectric >35-nm SiO2 results in a narrow
distribution for DC characteristics, (iii) lowering the p-doping in the body
layer improves the ON-resistance (RON). Gate capacitance measurements are
performed to further confirm the results. Hypotheses on dielectric
trapping/detrapping mechanisms under positive and negative gate bias are
reported.Comment: 5 pages, 10 figures, submitted to Microelectronics Reliability
(Special Issue: 31st European Symposium on Reliability of Electron Devices,
Failure Physics and Analysis, ESREF 2020