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      Solving non-Markovian open quantum systems with multi-channel reservoir coupling

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          Abstract

          We extend the non-Markovian quantum state diffusion (QSD) equation to open quantum systems which exhibit multi-channel coupling to a harmonic oscillator reservoir. Open quantum systems which have multi-channel reservoir coupling are those in which canonical transformation of reservoir modes cannot reduce the number of reservoir operators appearing in the interaction Hamiltonian to one. We show that the non-Markovian QSD equation for multi-channel reservoir coupling can, in some cases, lead to an exact master equation which we derive. We then derive the exact master equation for the three-level system in a vee-type configuration which has multi-channel reservoir coupling and give the analytical solution. Finally, we examine the evolution of the three-level vee-type system with generalized Ornstein-Uhlenbeck reservoir correlations numerically.

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          Decoherence Free Subspaces for Quantum Computation

          Decoherence in quantum computers is formulated within the Semigroup approach. The error generators are identified with the generators of a Lie algebra. This allows for a comprehensive description which includes as a special case the frequently assumed spin-boson model. A generic condition is presented for error-less quantum computation: decoherence-free subspaces are spanned by those states which are annihilated by all the generators. It is shown that these subspaces are stable to perturbations and moreover, that universal quantum computation is possible within them.
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            The quantum-state diffusion model applied to open systems

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              Quantum state diffusion, localization and quantum dispersion entropy

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                Author and article information

                Journal
                12 December 2011
                Article
                10.1016/j.aop.2012.05.006
                1112.2716
                653d0516-7155-4c2e-a227-7298a634fb84

                http://arxiv.org/licenses/nonexclusive-distrib/1.0/

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                11 pages, 4 figures
                quant-ph

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