In-situ, Gate Bias Dependent Study of Neutron Irradiation Effects on AlGaN/GaN HFETs

Abstract

In this study, unpassivated and SiN passivated Al0.27Ga0.73N/GaN HFETs were subjected to neutron radiation at 120 K. The primary focus of the research was the effects of neutron irradiation on drain current, gate leakage current, threshold voltage shift, gate-channel capacitance, and the effects of biasing the gate during irradiation. In-situ measurements were conducted on transistor current, gate-channel capacitance, and gate leakage current vs. gate bias beginning at 77 K through 300 K in 4 K temperature intervals. The drain currents increased for all devices, with a lesser increase observed for passivated devices. The changes in carrier concentration and carrier mobility, obtained from observed drain current increases and calculated with the charge control model using observed threshold voltage shifts, were attributed to trapped, positive charges in the AlGaN layer. This trapped positive charge resulted from electron-hole pairs created by neutron radiation-induced ionizations. The leakage current increased in all devices, with a smaller change observed in passivated devices. This increase was attributed to the formation of interface traps. Biasing the gate under neutron irradiation had no effect on electrical performance of HFETs.

Document Details

Document Type

Technical Report

Publication Date

Mar 01, 2010

Accession Number

ADA516450

Entities

Tags