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arxiv: 1611.01727 · v2 · pith:XREVN4JE · submitted 2016-11-06 · quant-ph

Non equilibrium stationary states of a dissipative kicked linear chain of spins

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classification quant-ph
keywords appliedchainlinearstationarykickedkicksqubitsdissipative
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We consider a linear chain made of spins of one half in contact with a dissipative environment for which periodic delta-kicks are applied to the qubits of the linear chain in two different configurations: kicks applied to a single qubit and simultaneous kicks applied to two qubits of the linear chain. In both cases the system reaches a non-equilibrium stationary condition in the long time limit. We study the transient to the quasi stationary states and their properties as function of the kick parameters in the single kicked qubit case and report the emergence of stationary entanglement between the kicked qubits when simultaneous kicks are applied. For doing our study we have derived an approximation to a master equation which serves us to analyze the effects of a finite temperature and the zero temperature environment.

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