Abstract
AbstractThe influence of the linear electron‐phonon coupling on the resonance fluorescence light of an impurity atom in solids is studied in the limits of low temperature and resonant excitation of the zero‐phonon transition. It is shown that with respect to the total intensity the electron‐phonon coupling gives rise only to a Debye‐Waller factor. The transient spectrum is studied taking into account the effect of the spectral apparatus. Further, it is shown that the intensity correlation can be modified substantially provided that the electron is coupled to a pseudolocal phonon mode of very narrow bandwidth.
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