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W2015393477 abstract "We demonstrate that a strain pseudospin model for martensitic alloys predicts a glass phase in the presence of disorder, consistent with recent experiments on binary and ternary alloys that have established the existence of such a phase above a critical composition. We find that the glass phase, as characterized by the Edwards-Anderson order parameter, exists even in the absence of elastic long-range interactions, which compete with the disorder to shift the glass transition to higher values of disorder. Our model predicts a second-order phase transition between the martensite and strain glass phases as a function of the disorder. Together with the cusp in the susceptibility and the history dependence in the glass phase in zero-field-cooling and field-cooling curves, these predictions may be tested experimentally by varying the alloy composition. Our approach using mean-field analysis and Monte Carlo simulations may be generalized to the study of glassy behavior in more complex structural transformations in two and three dimensions." @default.
W2015393477 created "2016-06-24" @default.
W2015393477 creator A5056689592 @default.
W2015393477 creator A5087470453 @default.
W2015393477 date "2010-03-15" @default.
W2015393477 modified "2023-09-25" @default.
W2015393477 title "Effects of disorder in ferroelastics: A spin model for strain glass" @default.
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W2015393477 doi "https://doi.org/10.1103/physrevb.81.094107" @default.
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