Observation of RHEED Intensity Oscillation in the Growth of Ag on Ag(100) Single Crystals
- 1 July 1988
- journal article
- Published by IOP Publishing in Japanese Journal of Applied Physics
- Vol. 27 (7A) , L1175
- https://doi.org/10.1143/jjap.27.l1175
Abstract
Oscillation of the reflection high-energy electron diffraction (RHEED) intensity has been observed during the MBE growth process of Ag on Ag(100) single crystals. The oscillation of the specular beam intensity is observed in the growth temperature range from 200 K to 480 K, but not observed above 500 K. Temperature dependence of the RHEED intensity oscillation is discussed on the basis of the step flow and roughening transition, and it is shown that the roughening transition is more important in the growth process of this system with high surface energy.Keywords
This publication has 9 references indexed in Scilit:
- Observation of intensity oscillations in rheed during the epitaxial growth of Cu and fcc Fe on Cu(100)Surface Science, 1987
- Intensity oscillations in reflection high-energy electron diffraction during molecular beam epitaxy of Ni on W(110)Applied Physics Letters, 1987
- Reflection high energy electron diffraction measurement of surface diffusion during the growth of gallium arsenide by MBEJournal of Crystal Growth, 1987
- The First Observation of RHEED Intensity Oscillation during the Growth of Cu/Mo Multi-Layered FilmsJournal of the Physics Society Japan, 1986
- Intensity oscillations of reflection high-energy electron diffraction during silicon molecular beam epitaxial growthApplied Physics Letters, 1985
- Reflection high-energy electron diffraction oscillations from vicinal surfaces—a new approach to surface diffusion measurementsApplied Physics Letters, 1985
- Roughening transition of high-index crystal faces: the case of copperJournal of Physics F: Metal Physics, 1985
- The Structure of SurfacesPublished by Springer Nature ,1985
- Auger line shape analyses for epitaxial growth in the Cu/Cu, Ag/Ag and Ag/Cu systemsApplications of Surface Science, 1982