Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
1998-12-14
Physics
Condensed Matter
Soft Condensed Matter
21 pages, includes 4 figures; submitted to Phys. Rev. E
Scientific paper
The scattering of light at large wave-vector magnitudes k in nematic systems containing topological defects is investigated theoretically. At large k the structure factor S(k) is dominated by power-law contributions originating from singular order-parameter variations associated with topological defects and from transverse thermal fluctuations of the nematic director. These defects (nematic disclinations and hedgehogs) lead to contributions of the form rho A k^{-xi} (``the Porod tail''), where rho is the number density of a given type of defect, A is a dimensionless Porod amplitude, and xi is an integer-valued Porod exponent. The Porod amplitudes and exponents are calculated for all types of topologically stable defects occurring in uniaxial and biaxial nematics in two or three spatial dimensions. The range of wave-vectors in which the contributions to the scattering intensity due to defects dominate the contribution due to thermal fluctuations is estimated, and it is concluded that for experimentally accessible defect densities the range of observability of the Porod tail extends over one to three decades in scattering wave-vector magnitude k. Available experimental results on phase ordering in uniaxial nematics are analyzed, and applications of our results are suggested for light-scattering studies of other nematic systems containing numerous defects.
Goldbart Paul M.
Zapotocky Martin
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