We have studied a composite system formed by a nematic thermotropic liquid crystal in which small silica particles have been dispersed. The colloids are aggregated and exert a randomizing effect on the nematic structure. The distorted pattern of the optical axis gives rise to a strong optical turbidity tau. We have measured tau as a function of the silica concentration Phi and of the temperature T in both the isotropic and nematic phase. We have found that, at Bred T, tau has a maximum as a function of Phi. and that, upon changing Phi, the whole shape of tau(T) drastically transforms. We have devised a model to describe the scattering of light from a distorted uniaxial system. The model has been developed both in the Born approximation and in the anomalous diffraction approximation, the two regimes which cover the broad range of experimental conditions. The family of tau(T) curves experimentally obtained at different Phi's is remarkably well described by the theoretical model, using as the only fitting parameter the correlation length zeta. We have found that, upon decreasing Phi, the nematic correlation length diverges as a power law of Phi. We compare the exponent of the power law with the prediction of the Imry-Ma theory of phase behavior in disordered systems, and we discuss the connection between zeta and the fractal correlation length of the silica aggregates.
Bellini, T., Clark, N., Degiorgio, V., Mantegazza, F., Natale, G. (1998). Light-scattering measurement of the nematic correlation length in a liquid crystal with quenched disorder. PHYSICAL REVIEW E, 57(3), 2996-3006 [10.1103/PhysRevE.57.2996].
Light-scattering measurement of the nematic correlation length in a liquid crystal with quenched disorder
MANTEGAZZA, FRANCESCO;
1998
Abstract
We have studied a composite system formed by a nematic thermotropic liquid crystal in which small silica particles have been dispersed. The colloids are aggregated and exert a randomizing effect on the nematic structure. The distorted pattern of the optical axis gives rise to a strong optical turbidity tau. We have measured tau as a function of the silica concentration Phi and of the temperature T in both the isotropic and nematic phase. We have found that, at Bred T, tau has a maximum as a function of Phi. and that, upon changing Phi, the whole shape of tau(T) drastically transforms. We have devised a model to describe the scattering of light from a distorted uniaxial system. The model has been developed both in the Born approximation and in the anomalous diffraction approximation, the two regimes which cover the broad range of experimental conditions. The family of tau(T) curves experimentally obtained at different Phi's is remarkably well described by the theoretical model, using as the only fitting parameter the correlation length zeta. We have found that, upon decreasing Phi, the nematic correlation length diverges as a power law of Phi. We compare the exponent of the power law with the prediction of the Imry-Ma theory of phase behavior in disordered systems, and we discuss the connection between zeta and the fractal correlation length of the silica aggregates.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.