Entropies and entanglement for initial mixed state in the multi-quanta JC model with the stark shift and Kerr-like medium

A. S.F. Obada; F. A. Mohammed; H. A. Hessian; A. B.A. Mohamed

doi:10.1007/s10773-006-9257-2

Entropies and entanglement for initial mixed state in the multi-quanta JC model with the stark shift and Kerr-like medium

A. S.F. Obada
, F. A. Mohammed
, H. A. Hessian
, A. B.A. Mohamed

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

31 Scopus citations

Abstract

In this paper, we study the time evolution of the entropies and the degree of entanglement in the mixed state for a multi-quanta JC model taking into consideration Stark shift and Kerr-like medium effect, we use a numerical method to investigate the time evolution of the partial entropy of the atom and field subsystem. This is done in the framework of the multi-quanta presses JC model with both the Stark shift and Kerr-like medium effect added. Furthermore, we examine the effect of the superposition states and a statistical mixture of coherent states as an initial field on the entropies and entanglement. Our results show that the setting of the initial state play an important role in the evolution of the sub-entropies and entanglement.

Original language	English
Pages (from-to)	1027-1044
Number of pages	18
Journal	International Journal of Theoretical Physics
Volume	46
Issue number	4
DOIs	https://doi.org/10.1007/s10773-006-9257-2
State	Published - Apr 2007
Externally published	Yes

Keywords

Entropies
Mixed state
The degree of entanglement
The superposition states and a statistical mixture of coherent states

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10.1007/s10773-006-9257-2

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title = "Entropies and entanglement for initial mixed state in the multi-quanta JC model with the stark shift and Kerr-like medium",

abstract = "In this paper, we study the time evolution of the entropies and the degree of entanglement in the mixed state for a multi-quanta JC model taking into consideration Stark shift and Kerr-like medium effect, we use a numerical method to investigate the time evolution of the partial entropy of the atom and field subsystem. This is done in the framework of the multi-quanta presses JC model with both the Stark shift and Kerr-like medium effect added. Furthermore, we examine the effect of the superposition states and a statistical mixture of coherent states as an initial field on the entropies and entanglement. Our results show that the setting of the initial state play an important role in the evolution of the sub-entropies and entanglement.",

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AU - Obada, A. S.F.

AU - Mohammed, F. A.

AU - Hessian, H. A.

AU - Mohamed, A. B.A.

PY - 2007/4

Y1 - 2007/4

N2 - In this paper, we study the time evolution of the entropies and the degree of entanglement in the mixed state for a multi-quanta JC model taking into consideration Stark shift and Kerr-like medium effect, we use a numerical method to investigate the time evolution of the partial entropy of the atom and field subsystem. This is done in the framework of the multi-quanta presses JC model with both the Stark shift and Kerr-like medium effect added. Furthermore, we examine the effect of the superposition states and a statistical mixture of coherent states as an initial field on the entropies and entanglement. Our results show that the setting of the initial state play an important role in the evolution of the sub-entropies and entanglement.

AB - In this paper, we study the time evolution of the entropies and the degree of entanglement in the mixed state for a multi-quanta JC model taking into consideration Stark shift and Kerr-like medium effect, we use a numerical method to investigate the time evolution of the partial entropy of the atom and field subsystem. This is done in the framework of the multi-quanta presses JC model with both the Stark shift and Kerr-like medium effect added. Furthermore, we examine the effect of the superposition states and a statistical mixture of coherent states as an initial field on the entropies and entanglement. Our results show that the setting of the initial state play an important role in the evolution of the sub-entropies and entanglement.

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KW - Mixed state

KW - The degree of entanglement

KW - The superposition states and a statistical mixture of coherent states

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Entropies and entanglement for initial mixed state in the multi-quanta JC model with the stark shift and Kerr-like medium

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Keywords

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