Optical properties and optimization of electromagnetically induced transparency in strained InAs/GaAs quantum dot structures

D. Barettin, Jakob Houmark-Nielsen, B. Lassen, Morten Willatzen, Torben Roland Nielsen, Jesper Mørk, Antti-Pekka Jauho

    Research output: Contribution to journalJournal articleResearchpeer-review

    556 Downloads (Pure)

    Abstract

    Using multiband k center dot p theory we study the size and geometry dependence on the slow light properties of conical semiconductor quantum dots. We find the V-type scheme for electromagnetically induced transparency (EIT) to be most favorable and identify an optimal height and size for efficient EIT operation. In case of the ladder scheme, the existence of additional dipole allowed intraband transitions along with an almost equidistant energy-level spacing adds additional decay pathways, which significantly impairs the EIT effect. We further study the influence of strain and band mixing comparing four different k center dot p band-structure models. In addition to the separation of the heavy and light holes due to the biaxial-strain component, we observe a general reduction in the transition strengths due to energy crossings in the valence bands caused by strain and band-mixing effects. We furthermore find a nontrivial quantum dot size dependence of the dipole moments directly related to the biaxial-strain component. Due to the separation of the heavy and light holes the optical transition strengths between the lower conduction and upper most valence-band states computed using one-band model and eight-band model show general qualitative agreement, with exceptions relevant for EIT operation.
    Original languageEnglish
    JournalPhysical Review B Condensed Matter
    Volume80
    Issue number23
    Pages (from-to)235304
    Number of pages9
    ISSN0163-1829
    DOIs
    Publication statusPublished - 2009

    Bibliographical note

    Copyright 2009 American Physical Society

    Keywords

    • Gallium arsenide
    • III-V semiconductors
    • Indium compounds
    • k
    • p calculations
    • Optimisation
    • Semiconductor quantum dots
    • Transparency
    • Valence bands

    Fingerprint

    Dive into the research topics of 'Optical properties and optimization of electromagnetically induced transparency in strained InAs/GaAs quantum dot structures'. Together they form a unique fingerprint.

    Cite this