6533b85dfe1ef96bd12be972
RESEARCH PRODUCT
The effect of high-In content capping layers on low-density bimodal-sized InAs quantum dots
Isaac SuárezD. RivasV. GrilloLucia NasiGiovanna TrevisiLuca SeravalliPaola FrigeriJuan P. Martínez-pastorGuillermo Muñoz-matutanosubject
LuminescencePhotoluminescenceMaterials scienceEvolutionExcitonPopulationMu-mPhysics::OpticsGeneral Physics and AstronomyCarrier transferWellGallium arsenideEmissionCondensed Matter::Materials Sciencechemistry.chemical_compoundLaser linewidtheducationPhotoluminescenceIslandseducation.field_of_studyCondensed Matter::Otherbusiness.industryCondensed Matter::Mesoscopic Systems and Quantum Hall EffectCrystallographic defectDynamicsbimodal-sized InAs/(In)GaAs quantum dots thermal population dark statesEscapechemistryQuantum dotTransmission electron microscopyFISICA APLICADAOptoelectronicsbusinessdescription
[EN] The structural and morphological features of bimodal-sized InAs/(In) GaAs quantum dots with density in the low 10(9) cm(-2) range were analyzed with transmission electron microscopy and atomic force microscopy and were related to their optical properties, investigated with photoluminescence and time-resolved photoluminescence. We show that only the family of small quantum dots (QDs) is able to emit narrow photoluminescence peaks characteristic of single-QD spectra; while the behavior of large QDs is attributed to large strain fields that may induce defects affecting their optical properties, decreasing the optical intensity and broadening the homogeneous linewidth. Then, by using a rate-equation model for the exciton recombination dynamics, we show that thermal population of dark states is inhibited in both QD families capped by high In content InGaAs layers. We discuss this behavior in terms of alloy disorder and increased density of point defects in the InGaAs pseudomorphic layer.
| year | journal | country | edition | language |
|---|---|---|---|---|
| 2013-05-21 | Journal of Applied Physics |