Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2009-09-30
Phys. Rev B. 81, 033309 (2010)
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
We have reworked our previous arXiv paper and submitted this latest version for peer review
Scientific paper
We investigate the power-dependent photoluminescence spectra from a strongly coupled quantum dot-cavity system using a quantum master equation technique that accounts for incoherent pumping, pure dephasing, and fermion or boson statistics. Analytical spectra at the one-photon correlation level and the numerically exact multi-photon spectra for fermions are presented. We compare to recent experiments on a quantum dot-micropiller cavity system and show that an excellent fit to the data can be obtained by varying only the incoherent pump rates in direct correspondence with the experiments. Our theory and experiments together show a clear and systematic way of studying stimulated-emission induced broadening and anharmonic cavity-QED.
Forchel Alfred
Franeck P.
Heindel Tobias
Höfling Sven
Hughes Scott S.
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