Abstract We theoretically investigate force-dependent induced transparency effect of an output field in an atom-assisted optomechanical system where a mechanical resonator is driven by a time-dependent force. It is shown… Click to show full abstract
Abstract We theoretically investigate force-dependent induced transparency effect of an output field in an atom-assisted optomechanical system where a mechanical resonator is driven by a time-dependent force. It is shown that there exists an additional transparency window besides a standard optomechanical induced transparency window due to the Jaynes–Cummings coupling between a two-level atom and cavity. We find that the transmission amplitude of optomechanical induced transparency effect is largely suppressed or enhanced by adjusting the amplitude and phase of the external force. Benefiting from the atom and the external force, the effect of tunable fast and slow light can be realizable, which may be helpful for quantum information storage processing.
               
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