Non-Markovian Dynamics for a Two-Atom-Coupled System Interacting with Local Reservoir at Finite Temperature

Li Jiang; Guo Feng Zhang

doi:10.1007/s10773-016-3233-2

Non-Markovian Dynamics for a Two-Atom-Coupled System Interacting with Local Reservoir at Finite Temperature

Li Jiang
, Guo Feng Zhang^*

^*Corresponding author for this work

School of Physics

Beihang University
Tsinghua University
University of Science and Technology of China

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

3 Scopus citations

Abstract

By using the effective non-Markovian measure (Breuer et al., Phys. Rev. Lett. 103, 210401 2009) we investigate non-Markovian dynamics of a pair of two-level atoms (TLAs) system, each of which interacting with a local reservoir. We show that subsystem dynamics can be controlled by manipulating the coupling between TLAs, temperature and relaxation rate of the atoms. Moreover, the correlation between non-Markovianity of subsystem and entanglement between the subsystem and the structured bath is investigated, the results show that the emergence of non-Markovianity has a negative effect on the entanglement.

Original language	English
Pages (from-to)	906-915
Number of pages	10
Journal	International Journal of Theoretical Physics
Volume	56
Issue number	3
DOIs	https://doi.org/10.1007/s10773-016-3233-2
State	Published - 1 Mar 2017

Keywords

Entanglement
Local reservoir
Non-Markovian
Subsystem-structured bath

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10.1007/s10773-016-3233-2

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title = "Non-Markovian Dynamics for a Two-Atom-Coupled System Interacting with Local Reservoir at Finite Temperature",

abstract = "By using the effective non-Markovian measure (Breuer et al., Phys. Rev. Lett. 103, 210401 2009) we investigate non-Markovian dynamics of a pair of two-level atoms (TLAs) system, each of which interacting with a local reservoir. We show that subsystem dynamics can be controlled by manipulating the coupling between TLAs, temperature and relaxation rate of the atoms. Moreover, the correlation between non-Markovianity of subsystem and entanglement between the subsystem and the structured bath is investigated, the results show that the emergence of non-Markovianity has a negative effect on the entanglement.",

keywords = "Entanglement, Local reservoir, Non-Markovian, Subsystem-structured bath",

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T1 - Non-Markovian Dynamics for a Two-Atom-Coupled System Interacting with Local Reservoir at Finite Temperature

AU - Jiang, Li

AU - Zhang, Guo Feng

PY - 2017/3/1

Y1 - 2017/3/1

N2 - By using the effective non-Markovian measure (Breuer et al., Phys. Rev. Lett. 103, 210401 2009) we investigate non-Markovian dynamics of a pair of two-level atoms (TLAs) system, each of which interacting with a local reservoir. We show that subsystem dynamics can be controlled by manipulating the coupling between TLAs, temperature and relaxation rate of the atoms. Moreover, the correlation between non-Markovianity of subsystem and entanglement between the subsystem and the structured bath is investigated, the results show that the emergence of non-Markovianity has a negative effect on the entanglement.

AB - By using the effective non-Markovian measure (Breuer et al., Phys. Rev. Lett. 103, 210401 2009) we investigate non-Markovian dynamics of a pair of two-level atoms (TLAs) system, each of which interacting with a local reservoir. We show that subsystem dynamics can be controlled by manipulating the coupling between TLAs, temperature and relaxation rate of the atoms. Moreover, the correlation between non-Markovianity of subsystem and entanglement between the subsystem and the structured bath is investigated, the results show that the emergence of non-Markovianity has a negative effect on the entanglement.

KW - Entanglement

KW - Local reservoir

KW - Non-Markovian

KW - Subsystem-structured bath

UR - https://www.scopus.com/pages/publications/85003906244

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EP - 915

JO - International Journal of Theoretical Physics

JF - International Journal of Theoretical Physics

IS - 3

ER -

Non-Markovian Dynamics for a Two-Atom-Coupled System Interacting with Local Reservoir at Finite Temperature

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Keywords

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