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Paper detail

Anomalous Melting Scenario of the Two-Dimensional Core-Softened System

We consider the phase behavior of two-dimensional ($2D$)system of particles with an isotropic core-softened potential introduced in our previous publications. As one can expect from the qualitative consideration for the three dimensional case, the system demonstrates a reentrant-melting transition at low densities along with waterlike anomalies in the fluid phase near the melting maximum. In contrast with the three dimensional case, in two dimensions melting is a continuous two-stage transition in the low density part of the phase diagram with an intermediate hexatic phase corresponding to the Kosterlitz-Thouless-Halperin-Nelson-Young (KTHNY) scenario. At the same time, at high densities the system melts through one first-order transition. We also show, that the order of the region of anomalous diffusion and the regions of density and structural anomalies are inverted in comparison with the $3D$ case and have silicalike sequence.

preprint2014arXivOpen access
D. E. DudalovYu. D. FominE. N. TsiokV. N. Ryzhov
cond-mat.soft
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D. E. DudalovYu. D. FominE. N. TsiokV. N. Ryzhov

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