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Main Authors: Trényi, Róbert, Ball, Simeon, Glynn, David G., Curty, Marcos
Format: Preprint
Published: 2025
Subjects:
Online Access:https://arxiv.org/abs/2503.14003
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author Trényi, Róbert
Ball, Simeon
Glynn, David G.
Curty, Marcos
author_facet Trényi, Róbert
Ball, Simeon
Glynn, David G.
Curty, Marcos
contents Purity testing protocols (PTPs), i.e., protocols that decide with high probability whether or not a distributed bipartite quantum state is maximally entangled, have been proven to be a useful tool in many quantum communication applications. In this paper, we provide geometrical constructions for such protocols that originate directly from classical linear error correcting codes (LECCs), in a way that the properties of the resulting PTPs are completely determined from those of the LECCs used in the construction. We investigate the implications of our results in various tasks, including error detection, entanglement purification for general quantum error models and quantum message authentication.
format Preprint
id arxiv_https___arxiv_org_abs_2503_14003
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Geometrical constructions of purity testing protocols and their applications to quantum communication
Trényi, Róbert
Ball, Simeon
Glynn, David G.
Curty, Marcos
Quantum Physics
Purity testing protocols (PTPs), i.e., protocols that decide with high probability whether or not a distributed bipartite quantum state is maximally entangled, have been proven to be a useful tool in many quantum communication applications. In this paper, we provide geometrical constructions for such protocols that originate directly from classical linear error correcting codes (LECCs), in a way that the properties of the resulting PTPs are completely determined from those of the LECCs used in the construction. We investigate the implications of our results in various tasks, including error detection, entanglement purification for general quantum error models and quantum message authentication.
title Geometrical constructions of purity testing protocols and their applications to quantum communication
topic Quantum Physics
url https://arxiv.org/abs/2503.14003