Firm evidence of the biaxial nematic phase in liquid crystals, not induced by a magnetic or electric field, has been established only recently. The discovery of these biaxially anisotropic liquid crystals has opened up new areas of both fundamental and applied research. The advances in biaxial liquid crystal-related topics call for a good overview on the propagation of waves through biaxially anisotropic media. Although the literature sporadically discusses biaxial interfaces, the propagation of waves through inhomogeneous biaxially anisotropic bulk materials has never been fully addressed. For this reason, we present a novel ray-tracing method for inhomogeneous biaxially anisotropic media. In the geometrical-optics approach, we clearly sho...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
In the nematic liquid crystal phase, rod-shaped molecules move randomly but remain essentially paral...
Using a range of optical techniques, we have probed the nature of orientational order in a thermotro...
Firm evidence of the biaxial nematic phase in liquid crystals, not induced by a magnetic or electric...
Uniaxial optical anisotropy in the geometrical-optics approach is a classical problem, and most of t...
When the optical behavior of light in a medium depends on the direction in which light is traveling,...
When the optical behavior of light in a medium depends on the direction in which light is traveling,...
We study the applicability of geometrical optics to inhomogeneous dielectric nongyrotropic optically...
We propose that, for materials having positive dielectric anisotropy, the biaxiality can be clearly ...
The existence of the elusive biaxial phase has been the subject of much discussion since it was pred...
The dielectric tensor is a physical descriptor of fundamental light-matter interactions, characteriz...
We propose an efficient method to simulate light propagation in lossless and non-scattering uniaxial...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
In the nematic liquid crystal phase, rod-shaped molecules move randomly but remain essentially paral...
Using a range of optical techniques, we have probed the nature of orientational order in a thermotro...
Firm evidence of the biaxial nematic phase in liquid crystals, not induced by a magnetic or electric...
Uniaxial optical anisotropy in the geometrical-optics approach is a classical problem, and most of t...
When the optical behavior of light in a medium depends on the direction in which light is traveling,...
When the optical behavior of light in a medium depends on the direction in which light is traveling,...
We study the applicability of geometrical optics to inhomogeneous dielectric nongyrotropic optically...
We propose that, for materials having positive dielectric anisotropy, the biaxiality can be clearly ...
The existence of the elusive biaxial phase has been the subject of much discussion since it was pred...
The dielectric tensor is a physical descriptor of fundamental light-matter interactions, characteriz...
We propose an efficient method to simulate light propagation in lossless and non-scattering uniaxial...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
Nematic liquid crystals possess three different phases: isotropic, uniaxial, and biaxial. The ground...
In the nematic liquid crystal phase, rod-shaped molecules move randomly but remain essentially paral...
Using a range of optical techniques, we have probed the nature of orientational order in a thermotro...