Title of article
Influence of temperature–pressure treatment on heavily hydrogenated silicon surface§
Author/Authors
Joanna Ciosek، نويسنده , , J. Ratajczak، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2006
Pages
4
From page
6115
To page
6118
Abstract
Microstructure and related properties of hydrogenated silicon samples, Si:H, treated at high-temperature (HT) up to 1270 K under hydrostatic
argon pressure (HP) up to 1.1 GPa are investigated. To prepare Si:H, Czochralski grown 0 0 1 oriented single crystalline Si wafer with 50 nm thick
surface SiO2 layer was heavily implanted with hydrogen using the immersion plasma source of hydrogen ions with energy 24 keV.
The surface of HT–HP treated Si:H was characterised by scanning electron microscopy. Reflectivity pattern measurements in the wavelength
range of 350–2000 nm have been performed to analyse their surface and bulk properties. The volume averaging method for a model of layer-like
structure has been used to simulate the HT–HP treated Si:H. The analysis of Si:H samples suggests the multi-layer structure composed of Si, Si:H,
SiO, SiO2, and of porous Si layers in the sub-surface region. The porous Si:H samples model is in good consistency with experimental data from
reflectance measurements
Keywords
hydrostatic pressure , Buried layer , Surface , Hydrogen-implanted silicon , annealing , Pore
Journal title
Applied Surface Science
Serial Year
2006
Journal title
Applied Surface Science
Record number
1002304
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