Monte Carlo studies of the fluid‐solid phase transition in the Lennard‐Jones system

Monte Carlo calculations for 108‐ and 256‐particle Lennard‐Jones systems have been carried out at 140 temperature‐density points in the vicinity of the fluid‐solid phase transition. Several types of initial configurations have been used, including fcc lattice arrays, disordered arrays, and combinations of lattice and disordered arrays. The results of runs at high densities show that for small periodic systems the calculations are dependent on the initial configuration and that such systems can exist in many different metastable states from which minimum energy states are not accessible in runs of the order of 106 to 107 configurations. In the vicinity of the smallest density at which the fcc lattice is stable, the calculated pressure‐volume curve exhibits many of the features of a ``van der Waals loop''; however, because a single phase is thermodynamically unstable over part of this region, the loop cannot be completely resolved through machine calculations. The use of the van der Waals loop to estimate t...

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