Abstract
The two-level quantum system is applied in theoretical modelling of the angle-resolved differential absorption spectra induced by the strong near-resonant laser eld in quantum dots. The simulations of induced polarization waves at appropriate directions have been performed by means of the density matrix formalism, without using perturbation theory. An interpretation of the differential spectra is provided referring to representation of the dressed states, with their energies experiencing Stark shifts due to the action of the laser eld. The feasibility of the light and matter interaction strength characterization via observed Mollow spectrum at the different (from the probe beam) direction is demonstrated.
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