Optimizing quantum tomography via shadow inversion

Andrea Caprotti, Joshua Morris, Borivoje Dakić
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Abstract

In quantum information theory, the accurate estimation of observables is pivotal for quantum information processing, playing a crucial role in computational and communication protocols. This work introduces a technique for estimating such objects, leveraging an underutilized resource in the inversion map of classical shadows that greatly refines the estimation cost of target observables without incurring any additional overhead. A generalized framework for computing and optimizing additional degrees of freedom in the homogeneous space of the shadow inversion is given that may be adapted to a variety of near-term problems. In the special case of local measurement strategies, we show feasible optimization leading to an exponential separation in sample complexity versus the standard approach and, in an exceptional case, we give nontrivial examples of optimized postprocessing for local measurements, achieving the same efficiency as the global Cliffords shadows.

Abstract Image

通过阴影反演优化量子断层成像
在量子信息论中,观测值的精确估算对量子信息处理至关重要,在计算和通信协议中发挥着关键作用。这项工作介绍了一种估算此类对象的技术,它利用了经典阴影反转图中未充分利用的资源,在不产生任何额外开销的情况下大大提高了目标观测值的估算成本。本文给出了一个通用框架,用于计算和优化阴影反演同质空间中的额外自由度,可适用于各种近期问题。在局部测量策略的特殊情况下,我们展示了可行的优化方法,与标准方法相比,样本复杂度呈指数级分离;在特殊情况下,我们给出了局部测量优化后处理的非难例,实现了与全局克利福德阴影相同的效率。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
8.60
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