A comparison of surface roughness as measured by atomic force microscopy and x-ray scattering
- 15 September 1997
- journal article
- Published by AIP Publishing in Journal of Applied Physics
- Vol. 82 (6) , 2944-2953
- https://doi.org/10.1063/1.366129
Abstract
We compare measurements of the roughness of silicon(001) wafers cleaned by several methods. The roughness values were obtained using crystal truncation rod (CTR) scattering and atomic force microscopy. Although they do not yield identical results, both methods show the same relative roughness for the different cleans. CTR scattering is sensitive to roughness on lateral length scales down to atomic dimensions. The quantitative differences in roughness can be explained by the different wavelength spectrum of roughness probed by the two techniques. CTR measurements were also performed after a 60 Å thermal oxide was grown on the wafers. The roughness trends are the same after oxidation, but we also find that the oxidation process has significantly reduced the interfacial roughness.This publication has 21 references indexed in Scilit:
- Rapid thermal oxidation of silicon in N2O between 800 and 1200 °C: Incorporated nitrogen and interfacial roughnessApplied Physics Letters, 1994
- Growth temperature dependence of the Si(001)/SiO2 interface widthApplied Physics Letters, 1994
- Roughness of the silicon (001)/SiO2 interfaceApplied Physics Letters, 1993
- Dependence of thin-oxide films quality on surface microroughnessIEEE Transactions on Electron Devices, 1992
- Light Emission from Microcrystalline Si Confined in SiO2 Matrix through Partial Oxidation of Anodized Porous SiliconJapanese Journal of Applied Physics, 1992
- X-ray interference method for studying interface structuresPhysical Review B, 1988
- Ordering atand Si(111)/SiInterfacesPhysical Review Letters, 1986
- Crystal truncation rods and surface roughnessPhysical Review B, 1986
- Scattering of X-rays from crystal surfacesJournal of Physics C: Solid State Physics, 1985
- Relationship between Surface Scattering and Microtopographic FeaturesOptical Engineering, 1979