Quick charging of a quantum battery with superposed trajecotries

• URL: http://arxiv.org/abs/2307.09010v1
• Date: Tue, 18 Jul 2023 06:56:49 GMT
• Title: Quick charging of a quantum battery with superposed trajecotries
• Authors: Po-Rong Lai, Jhen-Dong Lin, Yi-Te Huang, Yueh-Nan Chen
• Abstract summary: We propose novel charging protocols for quantum batteries based on quantum superpositions of trajectories. We conduct proof-of-principle demonstrations on IBMQ and IonQ quantum processors.
• Score: 0.0
• License: http://creativecommons.org/licenses/by/4.0/
• Abstract: We propose novel charging protocols for quantum batteries based on quantum superpositions of trajectories. Specifically, we consider that a qubit (the battery) interacts with multiple cavities or a single cavity at various positions, where the cavities act as chargers. Further, we introduce a quantum control prepared in a quantum superposition state, allowing the battery to be simultaneously charged by multiple cavities or a single cavity with different entry positions. To assess the battery's performance, we evaluate the maximum extractable work, referred to as ergotropy. Our main result is that the proposed protocols can utilize quantum interference effects to speed up the charging process. For the protocol involving multiple cavities, we observe a substantial increase in ergotropy as the number of superposed trajectories increases. In the case of the single-cavity protocol, we show that two superposed trajectories (entry positions) are sufficient to achieve the upper limit of the ergotropy throughout the entire charging process. Furthermore, we propose circuit models for these charging protocols and conduct proof-of-principle demonstrations on IBMQ and IonQ quantum processors. The results validate our theoretical predictions, demonstrating a clear enhancement in ergotropy.

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