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Autori principali: Zhang, Jin-Tian, Liu, Cheng-Ge, Ai, Qing
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2509.14707
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author Zhang, Jin-Tian
Liu, Cheng-Ge
Ai, Qing
author_facet Zhang, Jin-Tian
Liu, Cheng-Ge
Ai, Qing
contents Quantum batteries (QBs), as emerging quantum devices for energy storage and transfer, have attracted significant attention due to their potential to surpass classical batteries in charging efficiency and energy density. However, interactions between a QB and its environment result in decoherence, which significantly reduces its operational lifespan. In this work, we propose suppressing the aging of QBs by introducing the electromagnetically-induced transparency (EIT). Specifically, we model a four-level atom as a QB with an effective two-level system enabled by the EIT, while the photons in the cavity serve as the energy charger. By comparing the energy and extractable work of the QB with and without the EIT effect, we demonstrate that the QBs incorporating the EIT exhibit enhanced resistance to spontaneous decay as compared to their counterparts without the EIT. We believe that our findings may provide valuable insights and shed the light on the design principles for mitigating the degradation of the QBs.
format Preprint
id arxiv_https___arxiv_org_abs_2509_14707
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Suppressing Degradation in Quantum Batteries by Electromagnetically-induced Transparency
Zhang, Jin-Tian
Liu, Cheng-Ge
Ai, Qing
Quantum Physics
Quantum batteries (QBs), as emerging quantum devices for energy storage and transfer, have attracted significant attention due to their potential to surpass classical batteries in charging efficiency and energy density. However, interactions between a QB and its environment result in decoherence, which significantly reduces its operational lifespan. In this work, we propose suppressing the aging of QBs by introducing the electromagnetically-induced transparency (EIT). Specifically, we model a four-level atom as a QB with an effective two-level system enabled by the EIT, while the photons in the cavity serve as the energy charger. By comparing the energy and extractable work of the QB with and without the EIT effect, we demonstrate that the QBs incorporating the EIT exhibit enhanced resistance to spontaneous decay as compared to their counterparts without the EIT. We believe that our findings may provide valuable insights and shed the light on the design principles for mitigating the degradation of the QBs.
title Suppressing Degradation in Quantum Batteries by Electromagnetically-induced Transparency
topic Quantum Physics
url https://arxiv.org/abs/2509.14707