Rate limitation in low pressure diamond growth
- 1 April 1992
- journal article
- Published by Springer Nature in Journal of Materials Research
- Vol. 7 (4) , 934-939
- https://doi.org/10.1557/jmr.1992.0934
Abstract
We performed diamond deposition experiments from a gas phase containing H2, CH4, and sometimes CO, using a microwave plasma ball reactor operating at 400 mbar pressure. The molybdenum substrates were stamped with a suitable tool to form a number of flattened cones on its surface. A strong preference for crystal growth on top of the cones was observed. Numerical calculations were used to solve the underlying thermal conduction and diffusion problems. At the substrate, the flow of the active species entering by diffusion from the bulk of the gas phase was balanced by those leaving the system due to incorporation in the crystals. Comparison with the experiments showed that at least 10% of the active species striking the surface are incorporated. Thus, the limitation of diamond growth in our investigation lies in gas phase transport and not in incorporation difficulties at the growing surface.Keywords
This publication has 21 references indexed in Scilit:
- A microwave plasma ball reactor-experiment and simulationJournal of Physics D: Applied Physics, 1990
- Methyl versus acetylene as diamond growth speciesJournal of Materials Research, 1990
- Mechanism of diamond film growth by hot-filament CVD: Carbon-13 studiesJournal of Materials Research, 1990
- CVD diamond deposition processes investigation: CARS diagnostics/modelingJournal of Materials Research, 1990
- Possible behavior of a diamond (111) surface in methane/hydrogen systemsJournal of Materials Research, 1990
- Grain growth and the microstructural effects on the properties of YBa2Cu3O7−y superconductorJournal of Materials Research, 1990
- I n s i t u emission and mass spectroscopic measurement of chemical species responsible for diamond growth in a microwave plasma jetJournal of Applied Physics, 1990
- Diamond thin film technology I. Diamond depositionAdvanced Materials, 1990
- Growth of diamond by rf plasma-assisted chemical vapor depositionJournal of Materials Research, 1988
- Effects of Oxygen on CVD Diamond SynthesisJapanese Journal of Applied Physics, 1987