Title of article
Real-time analysis of UV laser-induced growth of ultrathin oxide films on silicon by spectroscopic ellipsometry
Author/Authors
Patrik Patzner، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2005
Pages
7
From page
204
To page
210
Abstract
In this work atomic oxygen was created by the photochemical dissociation of O2 with a F2 laser at 157 nm and of N2O with an
ArF laser at 193 nm.With this technique ultrathin (<6 nm) amorphous silicon oxide films (a-SiOx and a-SiO2) were grown onto
hydrogen terminated Si(1 1 1), Si(1 0 0), and amorphous silicon (a-Si) substrates. The oxidation process was monitored in realtime
by spectroscopic ellipsometry. Different ellipsometric models are applied to characterize the interface. The influence of
temperature, atmosphere, and of the surface morphology of the substrate was studied. Although the kinetics of oxidation is
affected by the gas phase chemistry and temperature, the oxidation conditions do not influence appreciably the structure of the
growing interface. The interface formed by this low-temperature oxidation process seems to be characteristic for the structure of
the substrate surface. It consists of amorphous silicon with a low content of oxygen (a-SiOx). The thickest a-SiOx interface layer
grew on the Si(1 1 1):H surface with a thickness of (0.8 0.3) nm and a stoichiometric index x of (0.40 0.15), whereas on
Si(1 0 0):H a (0.40 0.15) nm thick SiOx interface of nearly pure amorphous silicon was observed. Additionally X-ray
photoelectron spectroscopy (XPS) and FTIR spectroscopy measurements were carried out to confirm the ellipsometric results
Keywords
Real-time analysis , Spectroscopic ellipsometry , Amorphous silicon oxide
Journal title
Applied Surface Science
Serial Year
2005
Journal title
Applied Surface Science
Record number
1001101
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