Steady state entanglement behavior between two quantum refrigerators

An entangled steady-state behavior between two quantum thermal refrigeration machines is evaluated. Each machine is made up of three qubits of two-level, where each qubit interacts with its proper reservoir. The coupling between the qubits and the reservoirs is investigated with weak interaction. In...

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Published inPhysica A Vol. 596; p. 127199
Main Authors Khlifi, Y., Seddik, S., El Allati, A.
Format Journal Article
LanguageEnglish
Published Elsevier B.V 15.06.2022
Subjects
Quantum absorption refrigerator
Steady state entanglement
Thermodynamic quantities
Steady state entanglement
Quantum absorption refrigerator
Thermodynamic quantities
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Abstract An entangled steady-state behavior between two quantum thermal refrigeration machines is evaluated. Each machine is made up of three qubits of two-level, where each qubit interacts with its proper reservoir. The coupling between the qubits and the reservoirs is investigated with weak interaction. In addition, thermodynamic quantities such as heat flux are examined as a function of entanglement. The effect of temperature on entanglement is also studied in the cases of resonance and non-resonance. The obtained results show that the steady-state entanglement is more robust in the case of resonance than in the case of non-resonance. However, the maintenance in this case corresponds to the higher cooling power of the machine.
AbstractList An entangled steady-state behavior between two quantum thermal refrigeration machines is evaluated. Each machine is made up of three qubits of two-level, where each qubit interacts with its proper reservoir. The coupling between the qubits and the reservoirs is investigated with weak interaction. In addition, thermodynamic quantities such as heat flux are examined as a function of entanglement. The effect of temperature on entanglement is also studied in the cases of resonance and non-resonance. The obtained results show that the steady-state entanglement is more robust in the case of resonance than in the case of non-resonance. However, the maintenance in this case corresponds to the higher cooling power of the machine.
ArticleNumber 127199
Author El Allati, A.
Seddik, S.
Khlifi, Y.
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  surname: El Allati
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Keywords Steady state entanglement
Quantum absorption refrigerator
Thermodynamic quantities
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Snippet An entangled steady-state behavior between two quantum thermal refrigeration machines is evaluated. Each machine is made up of three qubits of two-level, where...
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StartPage 127199
SubjectTerms Quantum absorption refrigerator
Steady state entanglement
Thermodynamic quantities
Title Steady state entanglement behavior between two quantum refrigerators
URI https://dx.doi.org/10.1016/j.physa.2022.127199
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