Julius Helm, Walter T. Strunz
Published 2009-12-23, updated 2010-12-21Version 2
We study pure phase damping of two qubits due to fluctuating fields. As frequently employed, decoherence is thus described in terms of random unitary (RU) dynamics, i.e., a convex mixture of unitary transformations. Based on a separation of the dynamics into an average Hamiltonian and a noise channel, we are able to analytically determine the evolution of both entanglement and purity. This enables us to characterize the dynamics in a concurrence-purity (CP) diagram: we find that RU phase damping dynamics sets constraints on accessible regions in the CP plane. We show that initial state and dynamics contribute to final entanglement independently.
Comments: 10 pages, 5 figures, added minor changes in order to match published version
Journal: Physical Review A 81, 042314 (2010)
Initial-state randomness as a universal source of decoherence
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The Meaning of Decoherence
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