Controlling the dynamics of open quantum systems with periodic driving field

Abstract

In this paper, we study the exact dynamics of open quantum systems to the case with periodic driving field. It is shown that different from the static adjustment of the system on-site energy that can either generate or destroy the dissipationless localized bound states, the periodic driving can either preserve the existed localized bound states or destroy some of them but cannot generate new localized bound states. With the picture of energy transfer involved with the driving field, we find the condition for the survival of the localized bound states when the driving amplitude is weak. For the strong driving case, the condition breaks down because of the strong energy renormalization to the originally existed localized bound states. These properties of decoherence dynamics may help in controlling the quantum state against decoherence for the sake of its sensitivity to the fundamental frequency of the driving field.

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