Optimization of buffer layers for lattice-mismatched epitaxy of GaxIn1-xAs/InAsyP1-y double-heterostructures on InP

Optimization of buffer layers for lattice-mismatched epitaxy of GaxIn1-xAs/InAsyP1-y double-heterostructures on InP

We optimize InAsyP1-y buffer layers and compositional grades for lattice-mismatched heteroepitaxy of GaxIn1-xAs/InAsyP1-y double-heterostructures on InP. The strains of the active and buffer layers depend on the bulk misfit difference between these layers. The misfit difference is adjusted to elimin...

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Veröffentlicht in:Solar Energy Materials and Solar Cells 2007-06, Vol.91 (10), p.908-918
Hauptverfasser: AHRENKIEL, S. P, WANLASS, M. W, CARAPELLA, J. J, AHRENKIEL, R. K, JOHNSTON, S. W, GEDVILAS, L. M
Format: Artikel
Sprache:eng
Schlagworte:
Applied sciences
Energy
Equipments, installations and applications
Exact sciences and technology
MATERIALS SCIENCE
Natural energy
Photovoltaic conversion
SOLAR ENERGY
Solar Energy - Photovoltaics
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Zusammenfassung:We optimize InAsyP1-y buffer layers and compositional grades for lattice-mismatched heteroepitaxy of GaxIn1-xAs/InAsyP1-y double-heterostructures on InP. The strains of the active and buffer layers depend on the bulk misfit difference between these layers. The misfit difference is adjusted to eliminate strain in the active layer, thus avoiding misfit dislocations and surface topography that would otherwise form to relieve strain. The optimized structure uses an 'overshoot' with respect to the conventional design in the misfit and As composition of the InAsyP1-y buffer. Nearly optimized heterostructures typically show excellent structural quality and extended minority-carrier lifetimes.
ISSN:0927-0248
1879-3398
DOI:10.1016/j.solmat.2007.02.008