Pure and bright single photon sources have recently been obtained by inserting solid-state emitters in photonic nanowires or microcavities. The cavity approach presents the attractive possibility to greatly increase the source operation frequency. However, it is perceived as technologically demanding because the emitter resonance must match the cavity resonance. Here we show that the spectral matching requirement is actually strongly lifted by the intrinsic coupling of the emitter to its environment. A single photon source consisting of a single InGaAs quantum dot inserted in a micropillar cavity is studied. Phonon coupling results in a large Purcell effect even when the quantum dot is detuned from the cavity resonance. The phonon-assisted cavity enhanced emission is shown to be a good single-photon source, with a brightness exceeding 40 \% for a detuning range covering 15 cavity linewidths.
@article{arxiv.1412.6146,
title = {Phonon-tuned bright single-photon source},
author = {Simone Luca Portalupi and Gaston Hornecker and Valérian Giesz and Thomas Grange and Aristide Lemaître and Justin Demory and Isabelle Sagnes and Norberto D. Lanzillotti-Kimura and Loïc Lanco and Alexia Auffèves and Pascale Senellart},
journal= {arXiv preprint arXiv:1412.6146},
year = {2014}
}