CLEAN AND AS-COVERED ZINC-BLENDE GAN(001) SURFACES : NOVEL SURFACE STRUCTURES AND SURFACTANT BEHAVIOR

We have investigated clean and As-covered zinc-blende GaN (001) surfaces, employing first-principles total-energy calculations. For clean GaN surfaces our results reveal a novel surface structure very different from the well-established dimer structures commonly observed on polar III-V (001) surfaces: The energetically most stable surface is achieved by a Peierls distortion of the truncated $(1\ifmmode\times\else\texttimes\fi{}1)$ surface rather than through addition or removal of atoms. This surface exhibits a $(1\ifmmode\times\else\texttimes\fi{}4)$ reconstruction consisting of linear Ga tetramers. Furthermore, we find that a submonolayer of arsenic significantly lowers the surface energy indicating that As may be a good surfactant. Analyzing surface energies and band structures we identify the mechanisms which govern these unusual structures and discuss how they might affect growth properties.