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1. Optical properties of metamorphic type-I InAs1−x Sb x /Al y In1−y As quantum wells grown on GaAs for the mid-infrared spectral range.

Author

Eva Repiso, Christopher A Broderick, Maria de la Mata, Reza Arkani, Qi Lu, Andrew R J Marshall, Sergio I Molina, Eoin P O’Reilly, Peter J Carrington, and Anthony Krier

Subjects

QUANTUM wells, OPTICAL properties, PHOTOLUMINESCENCE, PHOTOLUMINESCENCE measurement, MOLECULAR beam epitaxy, BUFFER layers, AUDITING standards, CARRIER density

Abstract

We analyse the optical properties of InAs1−xSbx/Aly In1−y As quantum wells (QWs) grown by molecular beam epitaxy on relaxed Aly In1−y As metamorphic buffer layers (MBLs) using GaAs substrates. The use of Aly In1−y As MBLs allows for the growth of QWs having large type-I band offsets, and emission wavelengths  >3 m. Photoluminescence (PL) measurements for QWs having Sb compositions up to x  =  10% demonstrate strong room temperature PL up to 3.4 m, as well as enhancement of the PL intensity with increasing wavelength. To quantify the trends in the measured PL we calculate the QW spontaneous emission (SE), using a theoretical model based on an eight-band Hamiltonian. The theoretical calculations, which are in good agreement with experiment, identify that the observed enhancement in PL intensity with increasing wavelength is associated with the impact of compressive strain on the QW valence band structure, which reduces the band edge density of states making more carriers available to undergo radiative recombination at fixed carrier density. Our results highlight the potential of type-I InAs1−xSbx/Aly In1−y As metamorphic QWs to address several limitations associated with existing heterostructures operating in the mid-infrared, establishing these novel heterostructures as a suitable platform for the development of light-emitting diodes and diode lasers. [ABSTRACT FROM AUTHOR]

Published

2019