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Main Authors: Mao, Liang, Wang, Yifei, Gu, Yingfei, Li, Chengshu
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2508.09259
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author Mao, Liang
Wang, Yifei
Gu, Yingfei
Li, Chengshu
author_facet Mao, Liang
Wang, Yifei
Gu, Yingfei
Li, Chengshu
contents Qubit-resolved operations and measurements are required for most current quantum information processing schemes. However, these operations can be experimentally costly due to the need for local addressing, demanding significant classical control. A more resource-efficient alternative to extract information is uniform measurement, where a site-independent rotation of qubits is performed before measuring in the computational basis. This operation can be performed in parallel, or globally, in atom- and ion-based platforms, reducing resource cost and increasing fidelity. In this work, we initiate the exploration of the utility of this operation in quantum information processing. In particular, we demonstrate that uniform measurements can certify certain graph states, a family of highly entangled and broadly useful quantum states. We provide a sample-efficient certification algorithm with a proved performance guarantee, together with an experimental scheme based on analog-mode Rydberg atom arrays. Uniform measurements, therefore, allow direct and efficient characterization of quantum states on quantum platforms in a hitherto unexplored manner.
format Preprint
id arxiv_https___arxiv_org_abs_2508_09259
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Certifying Quantum States with Uniform Measurements
Mao, Liang
Wang, Yifei
Gu, Yingfei
Li, Chengshu
Quantum Physics
Quantum Gases
Qubit-resolved operations and measurements are required for most current quantum information processing schemes. However, these operations can be experimentally costly due to the need for local addressing, demanding significant classical control. A more resource-efficient alternative to extract information is uniform measurement, where a site-independent rotation of qubits is performed before measuring in the computational basis. This operation can be performed in parallel, or globally, in atom- and ion-based platforms, reducing resource cost and increasing fidelity. In this work, we initiate the exploration of the utility of this operation in quantum information processing. In particular, we demonstrate that uniform measurements can certify certain graph states, a family of highly entangled and broadly useful quantum states. We provide a sample-efficient certification algorithm with a proved performance guarantee, together with an experimental scheme based on analog-mode Rydberg atom arrays. Uniform measurements, therefore, allow direct and efficient characterization of quantum states on quantum platforms in a hitherto unexplored manner.
title Certifying Quantum States with Uniform Measurements
topic Quantum Physics
Quantum Gases
url https://arxiv.org/abs/2508.09259