Improved interface abruptness in pseudomorphic InGaAs/AlGaAs quantum wells with (411)A superflat interfaces grown by molecular beam epitaxy

Improved interface abruptness was achieved in pseudomorphic In x Ga 1−x As/Al 0.34 Ga 0.66 As quantum wells (QWs) (x≃0.2) with extremely flat interfaces over a wafer-size area [(411)A superflat interfaces] grown on (411)A GaAs substrates by decreasing the substrate temperature T s under a low V/III...

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Bibliographic Details
Main Authors: Kitada, Takahiro, Nii, Keisuke, Hiraoka, Tetsuya, Shimomura, Satoshi, Hiyamizu, Satoshi
Format: Conference Proceeding
Language:English
Subjects:
Atomic physics
Indium
Interfaces (materials)
Molecular beam epitaxy
Photoluminescence
Segregation (metallography)
Semiconducting aluminum compounds
Semiconducting indium gallium arsenide
Semiconductor growth
Thermal effects
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Summary:Improved interface abruptness was achieved in pseudomorphic In x Ga 1−x As/Al 0.34 Ga 0.66 As quantum wells (QWs) (x≃0.2) with extremely flat interfaces over a wafer-size area [(411)A superflat interfaces] grown on (411)A GaAs substrates by decreasing the substrate temperature T s under a low V/III ratio during molecular beam epitaxy (MBE). Significant redshifts of low-temperature (12 K) photoluminescence (PL) peaks were observed for the (411)A and simultaneously grown (100) QWs with decreasing T s because of the improved interface abruptness resulting from suppressed surface segregation of In atoms during MBE. Full widths at half maximum (FWHMs) of the PL peaks from the (411)A QWs grown at T s =450–540 ° C under the low V/III [ As 4 /(Ga+In) ] pressure ratio of 10 showed almost no dependence on T s , and were 20%–30% smaller than the best PL FWHMs of the corresponding (100) QWs of this study, indicating that the (411)A InGaAs/AlGaAs superflat interfaces can be successfully formed even for the low T s of 450 ° C .
ISSN:0734-211X
1071-1023
1520-8567
DOI:10.1116/1.1388602