Abstract:
This report is devoted to the problem of the resonance fluorescence of an atomic (or ion) system in the resonance with driving the standing wave of the optical cavity. It is shown that in this case resonance fluorescence depends on the location of atoms (or ions) relative to the positions of the nodes and antinodes of standing waves. It is demonstrated that if the atoms perform mechanical oscillations relative to the
equilibrium position like in Paul traps, the distance between the Mollow type resonance fluorescence triplets is changed as a function of the frequency of these oscillations. This effect is possible for two and three level system placed in two transversal standing waves of the resonator. The dependence of the photon statistics on the applied mechanical oscillation is studied