Damage to epitaxial GaN layers by silicon implantation

Ion channeling and cross-sectional transmission electron microscopy were used to study the extent and nature of Si ion implantation damage in epitaxial GaN layers at liquid nitrogen temperature, Results indicate that displacement damage produced by the implantation undergoes substantial dynamic annealing during implantation. As a result, at moderate implantation doses residual implantation damage consists of a dense network of secondary defects, such as clusters and loops, which are a consequence of incomplete annihilation of implantation-produced defects. Amorphous layers can be produced, bur the doses required are extremely high (> 10(16) cm(-2)) and amorphization appears to ''nucleate'' at the surface. (C) 1996 American Institute of Physics.