Hexagonal-to-cubic phase transformation in GaN nanowires by Ga+ implantation
Journal
Applied Physics Letters
Journal Volume
84
Journal Issue
26
Pages
5473-5475
Date Issued
2004
Author(s)
Abstract
Hexagonal-to-cubic phase transformation was carried out in gallium nitride nanowires using gallium ion implantation. The phase transformation was confirmed by performing optical photoluminescence, cathodoluminescence and high-resolution transmission electron microscopy (HRTEM). The deposition of Gallium from the implanted source reduced the surface energy and stablized the cubic phase. It was found that the fluctuations in the short-range order induced by dynamic annealing with the irradiation process stabilize the cubic phase and cause the phase transformation.
Other Subjects
Annealing;Cathodoluminescence;Crystallography;Epitaxial growth;Gallium nitride;Interfacial energy;Ion beams;Ion implantation;Irradiation;Kinetic theory;Lattice constants;Phonons;Photoluminescence;Positive ions;Substrates;Transmission electron microscopy;Defect annihilation;High resolution transmission electron microscopy (HRTEM);Nanowires;Zinc-blend structure;Phase transitions
Type
journal article