Epitaxial growth of crystalline, diamond-like films on Si (100) by laser ablation of graphite
- 22 October 1990
- journal article
- research article
- Published by AIP Publishing in Applied Physics Letters
- Vol. 57 (17), 1742-1744
- https://doi.org/10.1063/1.104053
Abstract
Pulsed laser evaporation has been used to deposit ultrathin (<1 nm) carbon films on Si (100) in an ultrahigh vacuum environment. Auger spectroscopy studies revealed a layer-by-layer growth up to the fourth layer. Within this coverage range, the electronic structure of the carbon atoms evolves from carbidic to diamond-like. Above two layers the topmost one consists exclusively of carbon atoms as evidenced by low-energy ion scattering experiments. Scanning tunneling microscopy shows that the films are crystalline and that the surface lattice is hexagonal.Keywords
This publication has 13 references indexed in Scilit:
- Raman microspectroscopy of diamond crystals and thin films prepared by hot-filament-assisted chemical vapor depositionPhysical Review B, 1990
- Current Issues and Problems in the Chemical Vapor Deposition of DiamondScience, 1990
- Adsorbed layer and thin film growth modes monitored by Auger electron spectroscopySurface Science Reports, 1989
- Observation of graphitic and amorphous structures on the surface of hard carbon films by scanning tunneling microscopyPhysical Review B, 1989
- Chemically bonded diamondlike carbon films from ion-beam depositionPhysical Review Letters, 1987
- Comparison of the CKLL first-derivative auger spectra from XPS and AES using diamond, graphite, SiC and diamond-like-carbon filmsSurface Science, 1987
- Auger-spectroscopy studies of the electronic structure of amorphous carbon filmsSurface Science, 1986
- The diamond surface: atomic and electronic structureSurface Science, 1986
- An ISS-XPS study on the oxidation of Al(111); identification of stoichiometric and reduced oxide surfacesSurface Science, 1985
- The diamond surface: II. Secondary electron emissionSurface Science, 1977