Strain compensation in AlInN/GaN multilayers on GaN substrates: Application to the realization of defect-free Bragg reflectors
Cosendey, Gatien; Carlin, Jean-Francois; Kaufmann, Nils A. K.; Butte, Raphael; Grandjean, Nicolas
2011

Abstract

We report on the growth conditions of AlInN layers grown on free-standing GaN substrates. We found that an average indium content of similar to 20% is needed to obtain defect-free AlInN/GaN multilayers. This is larger than the commonly accepted value of 18% for lattice-matched condition. A model where tensile strain at the GaN/AlInN interface is induced by indium surface segregation occurring in AlInN layers is proposed to explain this discrepancy. A high In/Al flux ratio is shown to reduce this effect and allowed obtaining a defect-free AlInN/GaN Bragg reflector with a peak reflectivity of 99.6% suitable for vertical cavity light emitting devices. (C) 2011 American Institute of Physics. [doi: 10.1063/1.3586767]

Details

Title Strain compensation in AlInN/GaN multilayers on GaN substrates: Application to the realization of defect-free Bragg reflectors
Author(s) Cosendey, Gatien ; Carlin, Jean-Francois ; Kaufmann, Nils A. K. ; Butte, Raphael ; Grandjean, Nicolas
Published in Applied Physics Letters
Volume 98
Issue 18
Pages 181111
Date 2011
Keywords
DOI https://doi.org/10.1063/1.3586767
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Laboratories SB
Record Appears in Scientific production and competences > Unattributed publications > SB - SB - Unattributed publications
Scientific production and competences > SB - School of Basic Sciences > SB - Unattributed publications
Peer-reviewed publications
Work produced at EPFL
Journal Articles
Published
Record creation date 2011-12-16

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