Download video Transcript View all New J. Phys. video abstracts The entropic uncertainty relation with quantum side information (EUR-QSI) from (Berta et al 2010 Nat. Phys. 6 659) is a unifying principle relating two distinctive features of quantum mechanics: quantum uncertainty due to measurement incompatibility, and entanglement. In these relations, quantum uncertainty takes the form of preparation uncertainty where one of two incompatible measurements is applied. In particular, the 'uncertainty witness' lower bound in the EUR-QSI is not a function of a post-measurement state. An insightful proof of the EUR-QSI from (Coles et al 2012 Phys. Rev. Lett. 108 210405) makes use of a fundamental mathematical consequence of the postulates of quantum mechanics known as the non-increase of quantum relative entropy under quantum channels. Here, we exploit this perspective to establish a tightening of the EUR-QSI which adds a new state-dependent term in the lower bound, related to how well one can reverse the action of a quantum measurement. As such, this new term is a direct function of the post-measurement state and can be thought of as quantifying how much disturbance a given measurement causes. Our result thus quantitatively unifies this feature of quantum mechanics with the others mentioned above. We have experimentally tested our theoretical predictions on the IBM quantum experience and find reasonable agreement between our predictions and experimental outcomes.
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机译:下载视频抄本查看全部New J. Phys。视频摘要(Berta et al 2010 Nat。Phys。6 659)的与量子辅助信息(EUR-QSI)的熵不确定性关系是一个统一的原理,涉及量子力学的两个独特特征:由于测量不兼容而引起的量子不确定性和纠缠。在这些关系中,量子不确定性采取准备不确定性的形式,其中应用了两个不兼容的测量之一。特别是,EUR-QSI中的“不确定性见证人”下限不是测量后状态的函数。 (Coles et al 2012 Phys.Rev.Lett.108 210405)的EUR-QSI的有力证明利用了量子力学假设的基本数学结果,即量子通道下量子相对熵的不增加。在这里,我们利用这种观点建立了紧缩的EUR-QSI,在下限添加了一个新的依赖状态的术语,该术语与人们可以逆转量子测量作用的程度有关。这样,这个新术语是测量后状态的直接函数,可以认为是量化给定测量造成的干扰。因此,我们的结果将量子力学的这一特征与上述其他特征定量地统一了起来。我们已经对IBM量子经验的理论预测进行了实验测试,并在我们的预测与实验结果之间找到了合理的一致性。
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