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Quantum Algorithms
Remote Charging and Degradation Suppression for the Quantum Battery
arXiv
Authors: Wan-Lu Song, Hai-Bin Liu, Bin Zhou, Wan-Li Yang, Jun-Hong An
Year
2023
Paper ID
55455
Status
Preprint
Abstract Read
~2 min
Abstract Words
182
Citations
N/A
Abstract
The quantum battery (QB) makes use of quantum effects to store and supply energy, which may outperform its classical counterpart. However, there are two challenges in this field. One is that the environment-induced decoherence causes the energy loss and aging of the QB, the other is that the decreasing of the charger-QB coupling strength with increasing their distance makes the charging of the QB become inefficient. Here, we propose a QB scheme to realize a remote charging via coupling the QB and the charger to a rectangular hollow metal waveguide. It is found that an ideal charging is realized as long as two bound states are formed in the energy spectrum of the total system consisting of the QB, the charger, and the electromagnetic environment in the waveguide. Using the constructive role of the decoherence, our QB is immune to the aging. Additionally, without resorting to the direct charger-QB interaction, our scheme works in a way of long-range and wireless-like charging. Effectively overcoming the two challenges, our result supplies an insightful guideline to the practical realization of the QB by reservoir engineering.
Why This Paper Matters
- It adds a 2023 reference point for readers tracking recent quantum research.
- The quantum battery (QB) makes use of quantum effects to store and supply energy, which may outperform its classical counterpart.
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