Sebastián V. Romero, Yongcheng Ding, Xi Chen, Yue Ban
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Exponentially fast scrambling of an initial state characterizes quantum
chaotic systems. Given the importance of quickly populating higher energy
levels from low-energy states in quantum battery charging protocols, this
Letter investigates the role of quantum scrambling in quantum batteries and its
effect on optimal power and charging times. We adopt a bare representation with
normalized bandwidths to suppress system energy dependence. To our knowledge,
this is the first in-depth exploration of quantum scrambling in the context of
quantum batteries. By analyzing the dynamics of out-of-time-order correlators,
our findings indicate that quantum scrambling does not necessarily lead to
faster charging, despite its potential for accelerating the process.
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