Inductively coupled high-density plasma-induced etch damage of GaN MESFETs

The fabrication of a wide variety of GaN-based photonic and electronic devices depends on dry etching, which typically requires ion-assisted removal of the substrate material. Under conditions of both high plasma Aux and energetic ion bombardment, GaN etch rates greater than 0.5 mum min(-1) and anisotropic etch profiles are readily achieved in inductively; coupled plasma (ICP) etch systems. Unfortunately, under these conditions, plasma-induced damage often occurs. Attempts to minimize such damage by reducing the ion energy or increasing the chemical activity in the plasma often result in a loss of etch rate or profile control which can limit dimensional control and reduce the utility of the process for device applications requiring anisotropic etch profiles. It is therefore necessary to develop plasma etch processes which couple anisotropy For critical dimension and sidewall profile control and high etch rates with low-damage for optimum device performance. In this study, we report changes in source resistance, reverse breakdown voltage, transconductance, and drain saturation current for GaN MESFET structures exposed to an Ar ICP plasma. In general. plasma-induced damage was more sensitive to ion bombardment energies as compared to plasma flux. (C) 2001 Elsevier Science Ltd. All rights reserved.