Abstract
We theoretically investigate the single-photon transport in a hybrid atom-optomechanical system embedded with two dipole-coupled two-level atoms, interacting with a single-mode optical waveguide. The transmission amplitudes for the single-photon propagation in such a hybrid system are obtained via a real-space approach. It is shown that the dipole–dipole interaction can significantly change the amplitudes and symmetries of the single-photon spectra. Interestingly, we find that the dipole–dipole interaction plays a similar role as does the positive atom–cavity detuning. In addition, the influence from the atomic dissipation can be weakened by increasing the dipole–dipole interaction.
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