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Paper detail

Using dark states to charge and stabilise open quantum batteries

We introduce an open quantum battery protocol using dark states to achieve both superextensive capacity and power density, with non-interacting spins coupled to a reservoir. Further, our power density actually scales with the of number of spins $N$ in the battery. We show that the enhanced capacity and power is correlated with entanglement. Whilst connected to the charger, the charged state of the battery is a steady state, stabilized through quantum interference in the open system.

preprint2020arXivOpen access
James Q. QuachWilliam J. Munro
quant-ph
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James Q. QuachWilliam J. Munro

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