Entanglement signature in quantum work statistics in the slow-driving regime

Jian Li, Mark T. Mitchison, Saulo V. Moreira
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Abstract

In slowly driven classical systems, work is a stochastic quantity and its probability distribution is known to satisfy the work fluctuation-dissipation relation, which states that the mean and variance of the dissipated work are linearly related. Recently, it was shown that generation of quantum coherence in the instantaneous energy eigenbasis leads to a correction to this linear relation in the slow-driving regime. Here, we go even further by investigating nonclassical features of work fluctuations in setups with more than one system. To do this, we first generalize slow control protocols to encompass multipartite systems, allowing for the generation of quantum correlations during the driving process. Then, focusing on two-qubit systems, we show that entanglement generation leads to a positive contribution to the dissipated work, which is distinct from the quantum correction due to local coherence generation known from previous work. Our results show that entanglement generated during slow control protocols, e.g., as an unavoidable consequence of qubit crosstalk, comes at the cost of increased dissipation.

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慢速驱动机制下量子功统计中的纠缠特征
在慢速驱动的经典系统中,功是一个随机量,其概率分布满足功波动-耗散关系,即耗散功的均值和方差呈线性关系。最近的研究表明,在瞬时能量特征基础上产生的量子相干性会导致在慢速驱动系统中对这一线性关系进行修正。在此,我们将更进一步,研究具有多个系统的设置中功波动的非经典特征。为此,我们首先对慢速控制协议进行了概括,使其包含多方系统,从而允许在驱动过程中产生量子相关性。然后,我们以双量子比特系统为重点,证明纠缠的产生会对耗散功产生正贡献,这与之前工作中已知的由于局部相干产生的量子修正是不同的。我们的研究结果表明,在慢速控制协议中产生的纠缠(例如,作为量子比特串扰不可避免的结果)是以增加耗散为代价的。
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