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- Title
Engineering decoherence for two-qubit systems interacting with a classical environment.
- Authors
Rossi, Matteo A. C.; Benedetti, Claudia; Paris, Matteo G. A.
- Abstract
We address the dynamics of a two-qubit system interacting with a classical dephasing environment driven by a Gaussian stochastic process. Upon introducing the concept of entanglement-preserving time, we compare the degrading effects of different environments, e.g. those described by Ornstein-Uhlenbeck (OU) or fractional noise. In particular, we consider pure Bell states and mixtures of Bell states and study the typical values of the entanglement-preserving time for both independent and common environments. We found that engineering environments towards fractional Gaussian noise is useful to preserve entanglement as well as to improve its robustness against noise. We also address entanglement sudden death by studying the sudden-death time as a function of the initial negativity. We found that: (i) the sudden-death time is bounded from below by an increasing function of the initial negativity, (ii) the sudden-death time depends only slightly on the process used to describe the environment and exhibits typicality. Overall, our results show that engineering the environment has only a slight influence over the entanglement sudden-death time, while it represents a valuable resource to increase the entanglement-preserving time, i.e. to maintain entanglement closer to the initial level for a longer interaction time.
- Subjects
DECOHERENCE (Quantum mechanics); QUBITS; GAUSSIAN processes; QUANTUM entanglement; ORNSTEIN-Uhlenbeck process; MIXTURES; RANDOM noise theory
- Publication
International Journal of Quantum Information, 2014, Vol 12, Issue 7/8, p-1
- ISSN
0219-7499
- Publication type
Article
- DOI
10.1142/S0219749915600035