Title of article
Effect of strain on the chemical bonds in InAs nanocrystals self-organized on GaAs and Se-terminated GaAs surfaces
Author/Authors
Yoshio Watanabe، نويسنده , , Fumihiko Maeda and Yoshio Watanabe، نويسنده ,
Issue Information
روزنامه با شماره پیاپی سال 2000
Pages
5
From page
625
To page
629
Abstract
We employed surface sensitive photoelectron spectroscopy PES.using synchrotron radiation to investigate the strain of
both deposited InAs and GaAs substrates with and without Se-termination. The two distinct chemical components
comprising Ga`As bonding and In`As bonding states in the As 3d spectrum are clearly observed for the first time, which
indicates that the strain in both the deposited InAs and GaAs substrates can be separately evaluated using the core-level
energy difference between the respective core-level chemical components. This difference between the chemical components
of Ga 3d and As 3d levels for both two kinds of samples is found to be independent of InAs deposition time, and to be
almost the same as that of a bulk GaAs, implying that no strain is generated in both two type GaAs substrates. On the other
hand, in the case of the deposited InAs, this value increases with an increase in the layer thickness of InAs for the
InAsrGaAs system and approaches to a bulk InAs value, whereas, there exits only a slight change for the InAsrSerGaAs
system at the very early stages of InAs growth and is almost the same as a bulk InAs value. These results suggest that the
driving force for the formation of InAs nanocrystals in the InAsrGaAs system is the elastic strain, whereas, in the
InAsrSerGaAs system, passivation-induced self-organizing mechanism is crucial. q2000 Elsevier Science B.V. All rights
reserved.
Keywords
synchrotron radiation , nanocrystal , MBE , GaAs , InAs , Passivation , Photoelectron
Journal title
Applied Surface Science
Serial Year
2000
Journal title
Applied Surface Science
Record number
996389
Link To Document