F. F. Fanchini, M. F. Cornelio, M. C. de Oliveira, A. O. Caldeira
Published 2010-06-12, updated 2011-07-14Version 3
We present a direct relation, based upon a monogamic principle, between entanglement of formation (EOF) and quantum discord (QD), showing how they are distributed in an arbitrary tripartite pure system. By extending it to a paradigmatic situation of a bipartite system coupled to an environment, we demonstrate that the EOF and the QD obey a conservation relation. By means of this relation we show that in the deterministic quantum computer with one pure qubit the protocol has the ability to rearrange the EOF and the QD, which implies that quantum computation can be understood on a different basis as a coherent dynamics where quantum correlations are distributed between the qubits of the computer. Furthermore, for a tripartite mixed state we show that the balance between distributed EOF and QD results in a stronger version of the strong subadditivity of entropy.
Comments: Published version
Journal: Phys. Rev. A 84, 012313 (2011)
On the optimal measurement for quantum discord of two-qubit states
Quantum Discord for Investigating Quantum Correlations without Entanglement in Solids
Classical Correlation and Quantum Discord in Critical Systems
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