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量子电池预计将实现储能容量的显着进步。在经典电池中,每个子系统的能量密度达到其最大值,称为E C,这是通过将最大能量除以子系统数来确定的。我们证明,通过量子能远程(QET)方案,可以超过量子电池中的限制,从而使子系统的能量密度超过了E c的值。我们的协议提高了效率,降低了量子计算机上的实验复杂性,并通过本地操作和经典通信(LOCC)实现瞬时能量充电。利用量子纠缠,该协议显着改善了量子储能系统,量子计算的有希望的进步和新的技术应用。这项工作代表了朝着革命量子储能和转移革命的关键步骤。
arxiv:2407.01832v1 [Quant-ph] 1 Jul 2024
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