188 research outputs found

    Finite temperature quantum correlations in SU(2)cSU(2)_c quark states and quantum spin models

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    The entanglement at finite temperatures are analyzed by using thermal models for colored quarks making up the hadron physical states. We have found that these quantum correlations entirely vanish at Tcmq/ln(1.5)T_c\geq m_q/\ln(1.5). For temperatures larger than TcT_c the correlations are classical. Also we worked out the entanglement for the transverse Ising spin chain. In dependence on both temperature TT and transverse field λ\lambda we can identify a certain region, where the quantum effects are likely to dominate the system. We suggest the mutual information as a quantitative measure for the correlations in ground state.Comment: 15 pages, 10 eps-figure

    Two dimensional representation of the Dirac equation in Non associative algebra

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    In this note a simple extension of the complex algebra to higher dimension is proposed. Using the postulated algebra a two dimensional Dirac equation is formulated and its solution is calculated. It is found that there is a sub-algebra where the associative nature can be recovered

    Polarization enhancement in d(p\vec{d}(\vec{p},2^2He)n reaction: Nuclear teleportation

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    I show that an experimental technique used in nuclear physics may be successfully applied to quantum teleportation (QT) of spin states of massive matter. A new non-local physical effect the `quantum-teleportation-effect' is discovered for the nuclear polarization measurement. Enhancement of the neutron polarization is expected in the proposed experiment for QT that discriminates {\it only} one of the Bell states.Comment: 3 pages, accepted for publication in J. Phys.

    Quantum entanglement dynamics and decoherence wave in spin chains at finite temperatures

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    We analyze the quantum entanglement at the equilibrium in a class of exactly solvable one-dimensional spin models at finite temperatures and identify a region where the quantum fluctuations determine the behavior of the system. We probe the response of the system in this region by studying the spin dynamics after projective measurement of one local spin which leads to the appearance of the ``decoherence wave''. We investigate time-dependent spin correlation functions, the entanglement dynamics, and the fidelity of the quantum information transfer after the measurement.Comment: Phys. Rev. A, accepted for publicatio
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