Temperature-Programmed Scattering (TPS) Study on Reactivity Difference of GaAs and GaAs Oxide Surfaces
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概要
- 論文の詳細を見る
The reactivity of GaAs and GaAs oxide surfaces to trimethylgallitum (TMG) was studied by temperature programmed scattering (TPS) through the energy accommodation coefficient (EAC). The substrate temperature was increased at a constant rate while the scattered TMG was being measured under a constant flux of TMG supplied to the substrate by a cryo-shrouded quadrupole mass spectrometer. Since the detection efficiency of the spectrometer is inversely proportional to the translational velocity of scattered TMG, the observed intensity variation represents the change in translational velocity of reflected TMG during the temperature increase. The variation of the signal intensities was least-squares analyzed to yield the EAC, which is a measure of the surface reactivity. The thus-obtained reactivity of photo-oxidized GaAs to TMG is smaller than that of dark-oxidized GaAs, which is even smaller than that of a bare GaAs surface. This difference in the reactivity is discussed in relation to the mechanism of selective area growth of GaAs using GaAs oxide as a mask.
- 社団法人応用物理学会の論文
- 1993-10-01
著者
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YAMADA Chikashi
Optoelectronics Technology Research Laboratory
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Yoshida Seikoh
Optoelectronics Technology Research Laboratory (otl)
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SASAKI Masahiro
Optoelectronics Technology Research Laboratory (OTL)
関連論文
- A Second-Harmonic Generation Study Applied to Sulfur Passivation and Photochemical Washing of GaAs Surfaces
- Temperature-Programmed Scattering (TPS) Study on Reactivity Difference of GaAs and GaAs Oxide Surfaces
- In Situ Mass Spectrometric Analysis of Surface Chemistry in MOMBE Growth
- GaAs Oxide Removal Using Hydrogen Plasma Studied by Surface Second-Harmonic Generation
- In-Situ Surface Second-Harmonic Generation Study of Epitaxial Growth of GaAs
- Scattering of Pulsed Trimethylgallium Beam from Clean and Oxidized GaAs Surfaces