1 February 1994 Anisotropic and spectral properties of biological scattering objects with the ordered particle orientation
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Proceedings Volume 2082, Quantification and Localization Using Diffuse Photons in a Highly Scattering Medium; (1994); doi: 10.1117/12.167482
Event: Europto Biomedical Optics '93, 1993, Budapest, Hungary
Abstract
Particle orientation in a disperse medium results both in anisotropic properties and in the changes in spectral transmittancy. To determine theoretically the effects of such kind a general approach based on the joint use of both the equation of Brownian rotation diffusion and the Mueller matrix for a thin slab of anisotropic medium has been developed. The optical properties of scatterers are described in terms of the first and second Born approximation and the exact T-matrix method. The goal of the investigations is to develop adequate optical models for interpretation of the experimental data obtained for the ordered disperse systems. In this paper, anisotropic properties of oriented disperse systems are discussed in a review manner, while the orientational turbidimetric effect is considered in detail.
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Nikolai G. Khlebtsov, Andrei G. Melnikov, Sergei Y. Shchyogolev, Vladimir A. Bogatyrjov, Alexander I. Sirota, "Anisotropic and spectral properties of biological scattering objects with the ordered particle orientation", Proc. SPIE 2082, Quantification and Localization Using Diffuse Photons in a Highly Scattering Medium, (1 February 1994); doi: 10.1117/12.167482; https://doi.org/10.1117/12.167482
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KEYWORDS
Particles

Scattering

Phase shifts

Dichroic materials

Refractive index

Birefringence

Rayleigh scattering

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