Electromagnetically Induced Transparency Effect Improves Quantum Battery Lifetime

• URL: http://arxiv.org/abs/2503.16156v2
• Date: Sat, 22 Mar 2025 12:59:05 GMT
• Title: Electromagnetically Induced Transparency Effect Improves Quantum Battery Lifetime
• Authors: Cheng-Ge Liu, Jin-Tian Zhang, Qing Ai,
• Abstract summary: Quantum battery (QB) is an application of quantum thermodynamics which uses quantum effects to store and transfer energy.<n>We propose suppressing the environmental dissipation in the energy-storage process of the QB by exploiting the electromagnetically-induced transparency (EIT) and bound states.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: Quantum battery (QB) is an application of quantum thermodynamics which uses quantum effects to store and transfer energy, overcoming the limitations of classical batteries and potentially improving performance. However, due to the interaction with the external environment, it will lead to decoherence and thus reduce the lifetime of QBs. Here, we propose suppressing the environmental dissipation in the energy-storage process of the QB by exploiting the electromagnetically-induced transparency (EIT) and bound states. By constructing a hybrid system composed of a four-level atom and a coupled-cavity array, two bound states are formed in the system when the energy of the QB is in the energy band of the cavity array. Due to the bound states and the EIT effect, the ambient dissipation is significantly suppressed, which improves the lifetime of the QB. In addition, we show that when the energy of the QB is in resonance with the cavity, the ergotropy of the QB reaches the maximum. Furthermore, there exists an optimal coupling strength between two neighbouring cavities which helps improve the performance of the QB. These discoveries may shed the light on the design of high-efficiency QBs.

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