Reversible transition between InGaAs dot structure and InGaAsP flat surface

Authors
Ozasa, KAoyagi, YPark, YJSamuelson, L
Issue Date
1997-08-11
Publisher
AMER INST PHYSICS
Citation
APPLIED PHYSICS LETTERS, v.71, no.6, pp.797 - 799
Abstract
We have studied the in situ modification of coherently grown InGaAs dots by interaction with phosphorus. By monitoring the intensity of reflection high-energy electron diffraction transmission spot, the in situ phosphorus (precracked PH3) supply on the InGaAs dots was examined at 480 degrees C. It was found that the phosphorus exposure induces a surface structure change from a dot structure to a Aat surface. The change is caused by the replacement of arsenic in the dots by phosphorus, which reduces the strain between the InGaAs(P) dots and the GaAs substrate. By switching AsH3/PH3 beams in situ, a reversible transition of the surface structure between the InGaAs dot structure and the InGaAsP flat surface was observed. A transitional state between the dot structure and the hat surface was metastabilized by tuning the AsH3/PH3 beam ratio. The metastabilized surface was observed ex situ using a high-resolution scanning electron microscope. (C) 1997 American Institute of Physics.
Keywords
HIGHLY STRAINED INGAAS; INAS DOTS; EPITAXY; GROWTH; GAAS(100); ISLANDS; GAAS; HIGHLY STRAINED INGAAS; INAS DOTS; EPITAXY; GROWTH; GAAS(100); ISLANDS; GAAS; InGaAs dot; RHEED; InGaAsP; AFM; HR-SEM
ISSN
0003-6951
URI
https://pubs.kist.re.kr/handle/201004/143647
DOI
10.1063/1.119649
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