Electric Field and Self-Heating Effects on the Emission Time of Iron Traps in GaN HEMTs

In this article, we separately investigate the role of electric field and device self-heating (SHE) in enhancing the chargeemission processfromFe-relatedbuffer traps (0.52 eV from E-c) in AlGaN/GaN high electron mobility transistors (HEMTs). The experimental analysis was performed bymeans of drain current transient (DCT) measurements for either: 1) different dissipated power (P-D,P- steady) at constant drain-to-source bias (V-DS,V- steady) or 2) constant P-D,P- steady at different V-DS,V- steady's. We found that: 1) an increase in P-D,P- steady yields an acceleration in the thermally activated emission process, consistently with the temperature rise induced by SHE and 2) on the other hand, the field-effect turned out to be negligible within the investigated voltage range, indicating the absence of the Poole-Frenkel effect (PFE). A qualitative analysis based on the electric field values obtained by numerical simulations is then presented to support the interpretation and conclusions.