Spontaneous symmetry breaking and phase coexistence in two-color networks

We consider an equilibrium ensemble of large Erdős-Renyi topological random networks with fixed vertex degree and two types of vertices, black and white, prepared randomly with the bond connection probability p. The network energy is a sum of all unicolor triples (either black or white), weighted wi...

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Veröffentlicht in:	Physical review. E 2016-01, Vol.93 (1), p.012302-012302, Article 012302
Hauptverfasser:	Avetisov, V, Gorsky, A, Nechaev, S, Valba, O
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Sprache:	eng
Schlagworte:	High Energy Physics - Phenomenology High Energy Physics - Theory Physics
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container_title	Physical review. E
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creator	Avetisov, V Gorsky, A Nechaev, S Valba, O
description	We consider an equilibrium ensemble of large Erdős-Renyi topological random networks with fixed vertex degree and two types of vertices, black and white, prepared randomly with the bond connection probability p. The network energy is a sum of all unicolor triples (either black or white), weighted with chemical potential of triples μ. Minimizing the system energy, we see for some positive μ the formation of two predominantly unicolor clusters, linked by a string of N_{bw} black-white bonds. We have demonstrated that the system exhibits critical behavior manifested in the emergence of a wide plateau on the N_{bw}(μ) curve, which is relevant to a spinodal decomposition in first-order phase transitions. In terms of a string theory, the plateau formation can be interpreted as an entanglement between baby universes in two-dimensional gravity. We conjecture that the observed classical phenomenon can be considered as a toy model for the chiral condensate formation in quantum chromodynamics.
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title	Spontaneous symmetry breaking and phase coexistence in two-color networks
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