Effect of Crystal Orientation on Anisotropic Etching and MOCVD Growth of Grooves on GaAs

Abstract

Grooves can be formed on by wet‐chemical anisotropic etching of surfaces masked by photoresist stripes. The effect of crystal orientation on the shape of the grooves etched and on subsequent epitaxial growth by MOCVD is presented. The polar lattice increases the complexity of the etching and growth processes. The slow‐etch planes defined by anisotropic etching are not always the same as the growth facets produced during MOCVD deposition, especially for deposition on higher order planes.