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Non-Markovian Dynamics of Entanglement of three-level atom embedded in a 3D photonic band gap structure |
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PP: 23-34 |
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Author(s) |
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M. S. Ateto,
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Abstract |
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| Entanglement evolution for a classically pumped three-level atom interacting with an anisotropic structured reservoir is
studied. We demonstrate that entanglement decay is much slower in the reservoir with the memory effects. This point is beneficial
for the implementation of quantum computation in the non-Markovian environments. Unlike the free-space case, the unusual reservoir
stimulates stationary entanglement with amplitude depends strongly on the relative phase between the control laser coupling the two
upper levels and the pump laser pulse used to create an excited state of the atom in a coherent superposition of the two upper levels. An
optimal stationary degree of entanglement is achieved for negative relative phase, where both detunings - from the upper band gap and
driving laser - are the same. Moreover, a significant stationary degree of entanglement is reached, for high detuned upper levels with
the pump laser pulse, on resonant frequency near the edge of the PBG. For entanglement in stationary regime, the Rabi frequency of
the control laser field exceeds the rate of entanglement degradation or enhancement for tuned or detuned frequency from the band gap,
depending on the relative phase value. |
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