2017
DOI: 10.1140/epjst/e2016-60329-4
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Plaquette Ising models, degeneracy and scaling

Abstract: Abstract. We review some recent investigations of the 3d plaquette Ising model. This displays a strong first-order phase transition with unusual scaling properties due to the size-dependent degeneracy of the low-temperature phase. In particular, the leading scaling correction is modified from the usual inverse volume behaviour ∝ 1/L 3 to 1/L 2 . The degeneracy also has implications for the magnetic order in the model which has an intermediate nature between local and global order and gives rise to novel fracto… Show more

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Cited by 30 publications
(26 citation statements)
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References 76 publications
(125 reference statements)
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“…The resulting theory turned out to be dual to a non-gauge theory of N spins interacting around a plaquette [3]. These theories are known as Ising-plaquette theories and they had been studied extensively (see [32] for a review and references therein).…”
Section: )mentioning
confidence: 99%
“…The resulting theory turned out to be dual to a non-gauge theory of N spins interacting around a plaquette [3]. These theories are known as Ising-plaquette theories and they had been studied extensively (see [32] for a review and references therein).…”
Section: )mentioning
confidence: 99%
“…Euclidean Path Integral and Wilson Loops for Plaquette Gauge Theory .-We will now proceed with our analysis of the "plaquette gauge theory" (PGT), which arises from applying the generalized gauging procedure to the classical plaquette Ising model 6,7,38 and produces X-cube fracton topological order in its deconfined phase, by analogy with the IGT of the preceding section. The main deviation from the standard gauging procedure is that we place σ at the center of each interaction in the Hamiltonian (the plaquettes in this model), rather than always on the links (these are the "nexus" spins of Ref.…”
mentioning
confidence: 99%
“…As the system changes from the solidlike into the columnar phase, simulations show clear signs of a first-order phase transition. From finite-size scaling analysis, we find a nonstandard relation predicted by a number of recent studies [43,44,51] where physical quantities scale with L 1 instead of the standard L 2 . Whether this scaling is due to the close-packed configuration degeneracy exponentially growing with system size or due to surface interactions in the domains phase still not clear.…”
Section: Discussionmentioning
confidence: 57%
“…Therefore, we proceed as in Ref. [44] and adjust values of critical chemical potential obtained by the maximum of the order parameter susceptibility, μ χ (L), to the following scaling law…”
Section: B Up To Second-neighbors Exclusion (K = 2)mentioning
confidence: 99%