Abstract
We theoretically investigate the real-time emission spectrum of a two-level atom coupled to an optomechanical cavity (OMC). Using the quantum trajectory approach, we obtain the single-photon time-dependent spectrum in this hybrid system where the influences of a strong atom-cavity coupling and a strong optomechanical interaction are studied. We find that a dressed state picture can explain the spectra by predicting the exact peak locations, as well as the relative peak heights. In our analysis, we also include the effect of mechanical losses (under the weak mechanical damping limit) and single-photon loss through spontaneous emission from the two-level emitter.
© 2015 Optical Society of America
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