Anomalous system-size dependence of properties at the fragile-to-strong transition in a bulk-metallic-glass forming melt
SV Sukhomlinov and MH Muser, COMPUTATIONAL MATERIALS SCIENCE, 156, 129-134 (2019).
DOI: 10.1016/j.commatsci.2018.09.047
As many other glass formers do, bulk-metallic-glass (BMG) forming melts undergo a fragile-to-strong transition (FST), which is accompanied by a small but noticeable peak in the specific heat c(p). Because of this peak, the FST is sometimes interpreted as a smeared-out phase transformation. Finite-size scaling analysis of peaks in c(p) allows the order of a phase transition to be accurately determined. This motivated us to study c(p) along with structural and dynamical properties of a ternary BMG former (Zr0.606Cu0.29Al0.104) using computer simulations, in which the system size was varied in a well-controlled fashion. Our model system reproduces the typical, almost discontinuous cross-over between non-Arrhenius to Arrhenius-type dynamics, which defines the FST. However, in contrast to the expectations for a phase transformation, the larger the system the smaller the peak in c(p). Other properties also reveal a size dependence, which is difficult to reconcile with the interpretation of the FST being a (smeared-out) phase transformation resulting from the competition between different local structures.
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