Spin systems on hypercubic Bethe lattices: a Bethe–Peierls approach

Alexander Mozeika; Anthony C C Coolen

Spin systems on hypercubic Bethe lattices: a Bethe–Peierls approach

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2 Citations (Scopus)

Abstract

We study spin systems on Bethe lattices constructed from d-dimensional hypercubes. Although these lattices are not tree-like, and therefore closer to real cubic lattices than Bethe lattices or regular random graphs, one can still use the Bethe–Peierls method to derive exact equations for the magnetization and other thermodynamic quantities. We compute phase diagrams for ferromagnetic Ising models on hypercubic Bethe lattices with dimension d = 2, 3, and 4. Our results are in good agreement with the results of the same models on d-dimensional cubic lattices, for low and high temperatures, and offer an improvement over the conventional Bethe lattice with connectivity $k=2d$.

Original language	English
Article number	255001
Journal	Journal of Physics A
Volume	48
Early online date	3 Jun 2015
Publication status	Published - 2015

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title = "Spin systems on hypercubic Bethe lattices: a Bethe–Peierls approach",

abstract = "We study spin systems on Bethe lattices constructed from d-dimensional hypercubes. Although these lattices are not tree-like, and therefore closer to real cubic lattices than Bethe lattices or regular random graphs, one can still use the Bethe–Peierls method to derive exact equations for the magnetization and other thermodynamic quantities. We compute phase diagrams for ferromagnetic Ising models on hypercubic Bethe lattices with dimension d = 2, 3, and 4. Our results are in good agreement with the results of the same models on d-dimensional cubic lattices, for low and high temperatures, and offer an improvement over the conventional Bethe lattice with connectivity $k=2d$.",

author = "Alexander Mozeika and Coolen, {Anthony C C}",

year = "2015",

language = "English",

volume = "48",

journal = "Journal of Physics A",

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TY - JOUR

T1 - Spin systems on hypercubic Bethe lattices

T2 - a Bethe–Peierls approach

AU - Mozeika, Alexander

AU - Coolen, Anthony C C

PY - 2015

Y1 - 2015

N2 - We study spin systems on Bethe lattices constructed from d-dimensional hypercubes. Although these lattices are not tree-like, and therefore closer to real cubic lattices than Bethe lattices or regular random graphs, one can still use the Bethe–Peierls method to derive exact equations for the magnetization and other thermodynamic quantities. We compute phase diagrams for ferromagnetic Ising models on hypercubic Bethe lattices with dimension d = 2, 3, and 4. Our results are in good agreement with the results of the same models on d-dimensional cubic lattices, for low and high temperatures, and offer an improvement over the conventional Bethe lattice with connectivity $k=2d$.

AB - We study spin systems on Bethe lattices constructed from d-dimensional hypercubes. Although these lattices are not tree-like, and therefore closer to real cubic lattices than Bethe lattices or regular random graphs, one can still use the Bethe–Peierls method to derive exact equations for the magnetization and other thermodynamic quantities. We compute phase diagrams for ferromagnetic Ising models on hypercubic Bethe lattices with dimension d = 2, 3, and 4. Our results are in good agreement with the results of the same models on d-dimensional cubic lattices, for low and high temperatures, and offer an improvement over the conventional Bethe lattice with connectivity $k=2d$.

M3 - Article

VL - 48

JO - Journal of Physics A

JF - Journal of Physics A

M1 - 255001

ER -

Spin systems on hypercubic Bethe lattices: a Bethe–Peierls approach

Abstract

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