Influence of carrier-carrier and carrier-phonon correlations on optical absorption and gain in quantum-dot systems


Journal article


M. Lorke, T. R. Nielsen, J. Seebeck, P. Gartner, F. Jahnke
2005

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APA   Click to copy
Lorke, M., Nielsen, T. R., Seebeck, J., Gartner, P., & Jahnke, F. (2005). Influence of carrier-carrier and carrier-phonon correlations on optical absorption and gain in quantum-dot systems.


Chicago/Turabian   Click to copy
Lorke, M., T. R. Nielsen, J. Seebeck, P. Gartner, and F. Jahnke. “Influence of Carrier-Carrier and Carrier-Phonon Correlations on Optical Absorption and Gain in Quantum-Dot Systems” (2005).


MLA   Click to copy
Lorke, M., et al. Influence of Carrier-Carrier and Carrier-Phonon Correlations on Optical Absorption and Gain in Quantum-Dot Systems. 2005.


BibTeX   Click to copy

@article{m2005a,
  title = {Influence of carrier-carrier and carrier-phonon correlations on optical absorption and gain in quantum-dot systems},
  year = {2005},
  author = {Lorke, M. and Nielsen, T. R. and Seebeck, J. and Gartner, P. and Jahnke, F.}
}

Abstract

A microscopic theory is used to study the optical properties of semiconductor quantum dots. The dephasing of a coherent excitation and line shifts of the interband transitions due to carrier-carrier Coulomb interaction and carrier-phonon interaction are determined from a quantum kinetic treatment of correlation processes. We investigate the density dependence of both mechanisms and clarify the importance of various dephasing channels involving the localized and delocalized states of the system.





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