Mixed-State Long-Range Order and Criticality from Measurement and Feedback

IF 11 Q1 PHYSICS, APPLIED

PRX quantum : a Physical Review journal Pub Date : 2023-03-27 DOI:10.1103/PRXQuantum.4.030318

Tsung-Cheng Lu, Zhehao Zhang, S. Vijay, T. Hsieh

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引用次数: 12

Abstract

We propose a general framework for using local measurements, local unitaries, and non-local classical communication to construct quantum channels which can efficiently prepare mixed states with long-range quantum order or quantum criticality. As an illustration, symmetry-protected topological (SPT) phases can be universally converted into mixed-states with long-range entanglement, which can undergo phase transitions with quantum critical correlations of local operators and a logarithmic scaling of the entanglement negativity, despite coexisting with volume-law entropy. Within the same framework, we present two applications using fermion occupation number measurement to convert (i) spinful free fermions in one dimension into a quantum-critical mixed state with enhanced algebraic correlations between spins and (ii) Chern insulators into a mixed state with critical quantum correlations in the bulk. The latter is an example where mixed-state quantum criticality can emerge from a gapped state of matter in constant depth using local quantum operations and non-local classical communication.

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基于测量和反馈的混合态长程序和临界性

我们提出了一个使用局部测量、局部酉和非局部经典通信来构建量子通道的通用框架，该量子通道可以有效地制备具有长程量子序或量子临界的混合态。例如，对称保护拓扑（SPT）相可以普遍转换为具有长程纠缠的混合态，尽管与体积律熵共存，但其可以经历具有局部算子的量子临界相关性和纠缠负性的对数标度的相变。在同一框架内，我们提出了两个使用费米子占有数测量的应用，以将（i）一维中的无自旋费米子转换为自旋之间具有增强代数相关性的量子临界混合态，以及（ii）Chern绝缘体转换为体中具有临界量子相关性的混合态。后者是一个例子，使用局域量子操作和非局域经典通信，混合态量子临界可以从恒定深度的带隙态物质中出现。

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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来源期刊

PRX quantum : a Physical Review journal

CiteScore

14.60

自引率

0.00%

发文量