Low-temperature orientational order and possible domain structures in C(60) fullerite

Abstract

Based on a simple model for ordering of hexagons on square planar lattice, an attempt has been made to consider possible structure of C(60) fullerite in its low temperature phase. It is shown that hexagons, imitating fullerens oriented along (C3) axes of sc lattice, can be ordered into an ideal structure with four non-equivalent molecules in unit cell. Then the energy degeneracy for each hexagon rotations by (π /3) around its (C3) axis leaves the translational and orientational order in this structure, but leads to a random distribution of (π /3) rotations and hence to ``averaged'' unit cell with two molecules. However the most relevant structural defects are not these intrinsic `\"misorientations`\" but certain walls between the domains with different sequencies of the above-mentioned two (non-ideal) sublattices. Numeric estimates have been made for the anisotropic inter-molecular potential showing that the anisotropy is noticeably smaller for molecules in walls than in domains.

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