Molecular Dynamics Simulations of 2d Size-Polydisperse Fluid Close to the Freezing Transition
J Pame and LS Shagolsem, MACROMOLECULAR SYMPOSIA, 399, 2100037 (2021).
DOI: 10.1002/masy.202100037
The effect of particle size-polydispersity on the static equilibrium properties of a model 2d-fluid is studied considering two types of size- distributions, namely, Gaussian (G) and uniform (U) using computer simulations. In this study, constant NPT molecular dynamics simulations is performed and the results are compared with that of the corresponding size-monodisperse fluid. In particular, the effect of size-disparity on the liquid-solid transition, local and global particle ordering around the freezing/melting transition is investigated. It is found that the transition temperature (T*) is elevated by the introduction of size polydispersity in the system. The value of global hexatic order parameter for polydisperse systems is far below 50%, while it is around 80% for size-monodisperse fluid at the respective T*.
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