Bond-orientational order, dislocation loops, and melting of solids and smectic-liquid crystals
- 1 July 1981
- journal article
- research article
- Published by American Physical Society (APS) in Physical Review B
- Vol. 24 (1), 363-387
- https://doi.org/10.1103/physrevb.24.363
Abstract
A three-dimensional solid with an equilibrium concentration of unbound dislocation loops displays a resistance to torsion not present in isotropic liquids. There is residual bond-angle order analogous to that found in the two-dimensional hexatic phase. A bulk phase with bond orientational order may be observable in supercooled liquids. Such a phase would display an angular modulation in monodomain x-ray-diffraction patterns, and would give rise to an intrinsic asymmetry in the limits of supercooling and superheating. Bond-angle order may also be present in glasses. A dislocation-loop mechanism for the smectic-—to-nematic transition implies anisotropic scaling and fixes the ratio of the transverse and longitudinal correlation length exponents.
Keywords
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