Stabilizer states and local realism

Matthew B. Elliott

arXiv:0807.2876·quant-ph·July 21, 2008·2 cites

Stabilizer states and local realism

Matthew B. Elliott

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Open Access

TL;DR

This paper explores the relationship between stabilizer states, quantum correlations, and local realism to better understand entanglement as a computational resource.

Contribution

It advances understanding of how stabilizer states relate to local realism and quantum correlations, bridging a gap in the foundational understanding of entanglement.

Findings

01

Analysis of stabilizer states' quantum correlations

02

Insights into local realism constraints

03

Implications for entanglement as a computational resource

Abstract

The central focus of this work is to make progress towards understanding entanglement as a resource for computation by examining the quantum correlations that can be extracted from stabilizer states. As such, we focus on the stabilizer formalism, local realism, and the convergence of the two.

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Taxonomy

TopicsQuantum Information and Cryptography · Quantum Mechanics and Applications · Quantum Computing Algorithms and Architecture