In this article, the significant effect of a thin gate thermal oxide layer on InGaP/InGaAs doping-channel field-effect transistors (DCFETs) is first demonstrated. When compared to the conventional InGaP/InGaAs DCFET, the device with the gate thermal oxide layer exhibits a higher gate turn-on voltage and nearly voltage-independent transconductances as the gate-to-source is biased form -0.75 V to 0 V, while the maximum transconductance is lower. Experimentally, the transconductance within 90% of its maximum value for gate voltage swing is 1.63 V in the gate-oxide device, which is greater than that of 1.35 V in the device without the gate thermal oxide layer. Furthermore, it maintains a high drain current level at negative gate bias in the gate-oxide device, which can be attributed that the thermal oxide layer with a considerably large energy gap absorbs more of gate negative voltage and the influence of negative voltage on the gate depleted thickness is relatively slight. (C) 2012 Elsevier B.V. All rights reserved.