Design and analysis of InGaN-GaN Modulation-Doped Field-Effect Transistors (MODFETS) for 90 GHz operations

A Modulation-Doped Field-Effect Transistor (MODFET) structure having quantum wire channel realized in InGaN-GaN material system is presented. This paper presents design and analysis of a novel one-dimensional Modulation-Doped Field-Effect transistor (1D MODFET) in InGaN-GaN material system for microwave and millimeter wave applications. An analytical model predicting the transport characteristics of the proposed MODFET device is also presented. Analytical results of the current-voltage and transconductance characteristics are presented. The unity-current gain cutoff frequency (f(T)) of the proposed device is computed as a function of the gate voltage VG. The results are compared with two-dimensional GaN/AlGaN MODFET and HFET devices. The analytical model also predicts that 0.25 mum channel length devices will extend the use of InGaN-GaN MODFETs to above 90GHz.