Quantum batteries with K-regular graph generators: A no-go for quantum advantage
Debkanta Ghosh Tanoy Kanti Konar Amit Kumar Pal Aditi Sen De
作者信息
Abstract
Regular graphs find broad applications ranging from quantum communication to quantum computation. Motivated by this, we investigate the design of a quantum battery based on a K-regular graph, where K denotes the number of edges incident on each vertex. We prove that a 0-regular graph battery exhibits extractable work that scales linearly with the system-size when charged using a K-regular graph. This linear scaling is shown to persist even when the charging is implemented via a collective K-regular charger with power-law decaying interactions. While no superlinear scaling is observed, the work output is found to improve systematically with increasing regularity K. Furthermore, by introducing the notion of the fraction of extractable work when only subsystems are accessible, we identify this fraction to be independent of system-size if the battery is prepared in the down-polarized product state. This independence breaks down when the battery is oriented along the x- and y-directions of the Bloch sphere.引用本文复制引用
Debkanta Ghosh,Tanoy Kanti Konar,Amit Kumar Pal,Aditi Sen De.Quantum batteries with K-regular graph generators: A no-go for quantum advantage[EB/OL].(2025-12-28)[2026-01-18].https://arxiv.org/abs/2512.22908.学科分类
物理学
|国家预印本平台
评论