The Liquid--Hexatic Transition for Soft Disks

Abstract

We study the liquid--hexatic transition of soft disks with massively parallel simulations and determine the equation of state as a function of system size. For systems with interactions decaying as the inverse mth power of the separation, the liquid--hexatic phase transition is continuous for m = 12 and m=8, while it is of first order for m = 24. The critical power m for the transition between continuous and first-order behavior is larger than previously reported. The continuous transition for m=12 implies that the two-dimensional Lennard-Jones model has a continuous liquid--hexatic transition at high temperatures. We also study the Weeks--Chandler--Andersen model and find a continuous transition at high temperatures, that is consistent with the soft-disk case for m=12. Pressure data as well as our implementation are available from an open-source repository.