Isobaric and Isothermal Molecular Dynamics Simulations of Diatomic Systems

Abstract

Isobaric molecular dynamics simulations were carried out for diatomic systems using different algorithms available in the literature. Two-centered Lennard-Jones potentials with and without quadrupolar interactions were used. Thermodynamic properties obtained from the isobaric algorithms compared very well with those of an equivalent simulation in the microcanonical ensemble; however, some differences were observed when similar comparisons were carried out for dynamic properties. More specifically, the constant pressure constraint affects the translational dynamics of the system because of the non-negligible differences between the momenta and the instantaneous velocities of the molecules.

Furthermore, the following studies were carried out using isobaric MD simulations: 1. Low temperature spontaneous FCC-orthorhombic (and vice versa) transition of a diatomic system with quadrupolar interactions as a function of the molecular bond length. 2. Effect of quadrupolar interaction on isobaric melting of a model diatomic system. 3. Effect of pressure on melting properties of a model diatomic system with quadrupolar interactions.