• DocumentCode
    3258007
  • Title

    Influence of carrier capture-escape processes on dynamical behaviour and characteristics of quantum dot laser

  • Author

    Lysak, Vladimir V. ; Shulika, Alexey V. ; Sukhoivanov, Igor A.

  • Author_Institution
    Dept. of the Phys. Found. of Electr. Eng., Tech. Univ. of Radio Electron., Kharkov, Ukraine
  • fYear
    2001
  • fDate
    2001
  • Firstpage
    28
  • Lastpage
    31
  • Abstract
    The space carrier confinements in all three directions at very small size (linear size is below or equal to the exciton Bohr radius) reduce to the discrete power spectrum of carriers inside the quantum dot (QD). This results in a significant improvement in the QD laser structure properties. Also if the distance between the energy states considerably exceeds the value of the thermal energy, “fizzing” carriers in the power window about kT can be avoided. Theoretical and experimental research into QD lasers has been conducted over many papers and most attention has been given to the amplification phenomenon in QDs and a definition of the threshold currents. The processes of carrier capture and escape play an essential role in the dynamics of quantum well lasers. In QD lasers these processes have a large influence too. In particular, the escape processes can cause the spatial hole burning effect. In this work we present a three-level transmission-line model of the QD laser. Using this model we study numerically the influence of carrier capture-escape processes on optical response, modulations and current watt (CW) characteristics from QD lasers
  • Keywords
    laser theory; optical modulation; quantum well lasers; semiconductor quantum dots; transmission line theory; CW characteristics; QD laser structure properties; carrier capture-escape processes; current watt characteristics; discrete power spectrum; dynamical behaviour; energy states; fizzing carriers; modulation; optical response; power window; quantum dot laser; quantum well lasers; space carrier confinements; spatial hole burning effect; thermal energy; three-level transmission-line model; Carrier confinement; Energy states; Excitons; Laser modes; Laser theory; Optical modulation; Quantum dot lasers; Quantum well lasers; Threshold current; Transmission lines;
  • fLanguage
    English
  • Publisher
    ieee
  • Conference_Titel
    Transparent Optical Networks, 2001. Proceedings of 2001 3rd International Conference on
  • Conference_Location
    Cracow
  • Print_ISBN
    0-7803-7096-1
  • Type

    conf

  • DOI
    10.1109/ICTON.2001.934711
  • Filename
    934711