Abstract
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Coupling of a quantum battery (QB) to two thermal reservoirs brings it to a nonequilibrium steady-state
(NESS). In this situation, although, the QB can be charged through the NESS heat current, no work may be
extracted from it through unitary cyclic processes. We exemplify this statement by studying the two- and threequbit
XXZ spin-chain QBs coupled weakly to two different thermal reservoirs in a symmetric configuration
wherein each end of chain interacts with an individual reservoir. We show that the work can be extracted at
positive temperature bias when two ends of a XXZ chain are collectively coupled to the hot reservoir
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