Measuring Entanglement in Physical Networks

Cory Glover; Albert-Laszlo Barabasi

doi:10.48550/arXiv.2403.01328

Measuring Entanglement in Physical Networks

Cory Glover
, Albert-Laszlo Barabasi

Department of Network and Data Science

Research output: Contribution to journal › Article › peer-review

Abstract (may include machine translation)

The links of a physical network cannot cross, which often forces the network layout into nonoptimal entangled states. Here we define a network fabric as a two-dimensional projection of a network and propose the average crossing number as a measure of network entanglement. We analytically derive the dependence of the average crossing number on network density, average link length, degree heterogeneity, and community structure and show that the predictions accurately estimate the entanglement of both network models and of real physical networks.

Original language	English
Article number	077401
Number of pages	5
Journal	Physical Review Letters
Volume	133
Issue number	7
DOIs	https://doi.org/10.48550/arXiv.2403.01328 https://doi.org/10.1103/PhysRevLett.133.077401
State	Published - 13 Aug 2024

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title = "Measuring Entanglement in Physical Networks",

abstract = "The links of a physical network cannot cross, which often forces the network layout into nonoptimal entangled states. Here we define a network fabric as a two-dimensional projection of a network and propose the average crossing number as a measure of network entanglement. We analytically derive the dependence of the average crossing number on network density, average link length, degree heterogeneity, and community structure and show that the predictions accurately estimate the entanglement of both network models and of real physical networks.",

author = "Cory Glover and Albert-Laszlo Barabasi",

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AB - The links of a physical network cannot cross, which often forces the network layout into nonoptimal entangled states. Here we define a network fabric as a two-dimensional projection of a network and propose the average crossing number as a measure of network entanglement. We analytically derive the dependence of the average crossing number on network density, average link length, degree heterogeneity, and community structure and show that the predictions accurately estimate the entanglement of both network models and of real physical networks.

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Measuring Entanglement in Physical Networks

Abstract (may include machine translation)

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