Entanglement of non-symmetric two atomic qubits induced by a coherent state field

Jun Gang Li; Jian Zou; Jin Fang Cai; Bin Shao

doi:10.1088/0253-6102/45/1/012

Entanglement of non-symmetric two atomic qubits induced by a coherent state field

Jun Gang Li^*, Jian Zou, Jin Fang Cai, Bin Shao

^*Corresponding author for this work

School of Physics

Beijing Institute of Technology

Research output: Contribution to journal › Article › peer-review

5 Citations (Scopus)

Abstract

The entanglement of two atomic qubits, which are coupled to a coherent state field with different couplings, is studied. The dynamical evolution of the concurrence, which measures the degree of the entanglement between the two qubits, is plotted versus the scaled time gt. It is found that the two qubits can be entangled by the coherent state field even when they are initially prepared in the most mixed state, and for very weak field, the most mixed state can be more easily entangled than some pure states. It is also found that the entanglement between the qubits sensitively depends on the relative difference of the atomic couplings and the mean photon number of the field.

Original language	English
Pages (from-to)	67-70
Number of pages	4
Journal	Communications in Theoretical Physics
Volume	45
Issue number	1
DOIs	https://doi.org/10.1088/0253-6102/45/1/012
Publication status	Published - 15 Jan 2006

Keywords

Coherent state field
Entanglement
Mixed state

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abstract = "The entanglement of two atomic qubits, which are coupled to a coherent state field with different couplings, is studied. The dynamical evolution of the concurrence, which measures the degree of the entanglement between the two qubits, is plotted versus the scaled time gt. It is found that the two qubits can be entangled by the coherent state field even when they are initially prepared in the most mixed state, and for very weak field, the most mixed state can be more easily entangled than some pure states. It is also found that the entanglement between the qubits sensitively depends on the relative difference of the atomic couplings and the mean photon number of the field.",

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AU - Li, Jun Gang

AU - Zou, Jian

AU - Cai, Jin Fang

AU - Shao, Bin

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Y1 - 2006/1/15

N2 - The entanglement of two atomic qubits, which are coupled to a coherent state field with different couplings, is studied. The dynamical evolution of the concurrence, which measures the degree of the entanglement between the two qubits, is plotted versus the scaled time gt. It is found that the two qubits can be entangled by the coherent state field even when they are initially prepared in the most mixed state, and for very weak field, the most mixed state can be more easily entangled than some pure states. It is also found that the entanglement between the qubits sensitively depends on the relative difference of the atomic couplings and the mean photon number of the field.

AB - The entanglement of two atomic qubits, which are coupled to a coherent state field with different couplings, is studied. The dynamical evolution of the concurrence, which measures the degree of the entanglement between the two qubits, is plotted versus the scaled time gt. It is found that the two qubits can be entangled by the coherent state field even when they are initially prepared in the most mixed state, and for very weak field, the most mixed state can be more easily entangled than some pure states. It is also found that the entanglement between the qubits sensitively depends on the relative difference of the atomic couplings and the mean photon number of the field.

KW - Coherent state field

KW - Entanglement

KW - Mixed state

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JO - Communications in Theoretical Physics

JF - Communications in Theoretical Physics

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ER -

Entanglement of non-symmetric two atomic qubits induced by a coherent state field

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Keywords

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