The modulation of multi-domain and harmonic wave in a GaN planar Gunn diode by recess layer

In this paper, a novel structure of a gallium nitride (GaN) planar Gunn diode with isosceles trapezoidal recess layers in the aluminum gallium nitride (AlGaN) barrier layer is proposed to enhance the harmonic components of Gunn oscillation waveforms. Numerical simulations demonstrate that the oscillation frequency rises from 99.1 GHz up to 300.4 GHz with the recess number increasing from one to four, at which the maximum radio frequency (RF) output power and conversion efficiency are obtained. The output performance of the diode enhances at high harmonic frequencies and is mainly due to the multiple recess layer structure that can trigger the formation of multiple Gunn domains in the two-dimensional electron gas channel of the GaN planar Gunn diode. This indicates that the long channel GaN Gunn diode has the ability to output the available RF power associated with the device operating in a submillimeter-wave and terahertz (THz) regime.