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Non-Markovian entanglement dynamics between two coupled qubits in the same environment
We analyze the dynamics of the entanglement in two independent non-Markovian channels. In particular, we focus on the entanglement dynamics as a function of the initial states and the channel parameters, such as the temperature and the ratio r between omega0, the characteristic frequency of the quan...
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| Published in: | Journal of physics. A, Mathematical and theoretical Mathematical and theoretical, 2009-04, Vol.42 (15), p.155303-155303 (13) |
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| Main Authors: | , , |
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| Language: | English |
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| cited_by | cdi_FETCH-LOGICAL-c397t-a2388e06a9f06aaf829979656b50b9c5be5f4bee6d728a6c7617ea0f0d2062753 |
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| cites | cdi_FETCH-LOGICAL-c397t-a2388e06a9f06aaf829979656b50b9c5be5f4bee6d728a6c7617ea0f0d2062753 |
| container_end_page | 155303 (13) |
| container_issue | 15 |
| container_start_page | 155303 |
| container_title | Journal of physics. A, Mathematical and theoretical |
| container_volume | 42 |
| creator | Cui, Wei Xi, Zairong Pan, Yu |
| description | We analyze the dynamics of the entanglement in two independent non-Markovian channels. In particular, we focus on the entanglement dynamics as a function of the initial states and the channel parameters, such as the temperature and the ratio r between omega0, the characteristic frequency of the quantum system of interest, and omegac, the cut-off frequency of the Ohmic reservoir. We give a stationary analysis of the concurrence and find that the dynamic of non-Markovian entanglement concurrence at temperature kBT = 0 is different from the kBT > 0 case. We find that 'entanglement sudden death' (ESD) depends on the initial state when kBT = 0, otherwise the concurrence always disappears at a finite time when kBT > 0, which means that the ESD must happen. The main result of this paper is that the non-Markovian entanglement dynamic is fundamentally different from the Markovian one. In the Markovian channel, entanglement decays exponentially and vanishes only asymptotically, but in the non-Markovian channel the concurrence oscillates, especially in the high temperature case. Then an open-loop controller adjusted by the temperature is proposed to control the entanglement and prolong the ESD time. |
| doi_str_mv | 10.1088/1751-8113/42/15/155303 |
| format | article |
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In particular, we focus on the entanglement dynamics as a function of the initial states and the channel parameters, such as the temperature and the ratio r between omega0, the characteristic frequency of the quantum system of interest, and omegac, the cut-off frequency of the Ohmic reservoir. We give a stationary analysis of the concurrence and find that the dynamic of non-Markovian entanglement concurrence at temperature kBT = 0 is different from the kBT > 0 case. We find that 'entanglement sudden death' (ESD) depends on the initial state when kBT = 0, otherwise the concurrence always disappears at a finite time when kBT > 0, which means that the ESD must happen. The main result of this paper is that the non-Markovian entanglement dynamic is fundamentally different from the Markovian one. In the Markovian channel, entanglement decays exponentially and vanishes only asymptotically, but in the non-Markovian channel the concurrence oscillates, especially in the high temperature case. 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| issn | 1751-8121 1751-8113 1751-8121 |
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| source | Institute of Physics:Jisc Collections:IOP Publishing Read and Publish 2024-2025 (Reading List) |
| subjects | Exact sciences and technology Physics |
| title | Non-Markovian entanglement dynamics between two coupled qubits in the same environment |
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