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Abstract
Constant pressure molecular dynamics simulations, which secure the system to be under hydrostatic pressure, are used to simulate the behavior of liquid crystals consisting of anisotropic molecules with both translational and orientational freedom. In order to investigate to what extent can the properties known to real liquid crystalline phases be explained by the anisotropy of the shape of the molecules alone, the molecular dynamic (MD) simulation uses purely repulsive short-range pair potentials representing soft spherocylinders. A clear change in the microscopic as well as the macroscopic physical properties are observed near the phase transition from nematic liquid crystal to isotropic liquid.