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W1875470527 abstract "We present a numerical study of the Blume-Capel model with quenched disorder in 3D. The phase diagram is characterized by spin-glass/paramagnet phase transitions of both first and second order in the thermodynamic sense. Numerical simulations are performed using the Exchange-Monte Carlo algorithm, providing clear evidence for inverse freezing. The main features at criticality and in the phase coexistence region are investigated. The whole inverse freezing transition appears to be first order. The second order transition appears to be in the same universality class of the Edwards-Anderson model. The nature of the spin-glass phase is analyzed by means of the finite size scaling behavior of the overlap distribution functions and the four-spins real-space correlation functions. Evidence for a replica symmetry breaking-like organization of states is provided." @default.
W1875470527 created "2016-06-24" @default.
W1875470527 creator A5034553663 @default.
W1875470527 creator A5049776530 @default.
W1875470527 creator A5054785184 @default.
W1875470527 date "2011-01-24" @default.
W1875470527 modified "2023-10-16" @default.
W1875470527 title "Random Blume-Capel model on a cubic lattice: First-order inverse freezing in a three-dimensional spin-glass system" @default.
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W1875470527 doi "https://doi.org/10.1103/physrevb.83.014107" @default.
W1875470527 hasPublicationYear "2011" @default.
W1875470527 type Work @default.