Speckle correlation technique as applied to structure analysis of multiphase systems with spatially separated components

Pavel V. Zakharov; Dmitry A. Zimnyakov; V. Trifonov

doi:10.1117/12.455199

5 February 2002 Speckle correlation technique as applied to structure analysis of multiphase systems with spatially separated components

Pavel V. Zakharov, Dmitry A. Zimnyakov, V. Trifonov

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Proceedings Volume 4607, Selected Papers from Fifth International Conference on Correlation Optics; (2002) https://doi.org/10.1117/12.455199
Event: Fifth International Conference on Correlation Optics, 2001, Chernivsti, Ukraine

Abstract

Speckle correlation diagnostics was used to study non- stationary multiple scattering multi-phase systems with spatially separated components on the instance of porous media in the course of liquid-phase evaporation. We propose a phenomenological model in which the local interfaces between air-filled and liquid-filled spaces in the probed medium act as an ensemble of the elementary dynamic scatters. The motions of local interface boundaries in such a scattering coherently illuminated system cause the dynamics of speckle patterns, and their decorrelation rate is related to mass transfer rate in the porous medium. Thus, correlation or spectral analysis of the speckle dynamics allows us to evaluate structural characteristics of such an object under given evaporation conditions. In this paper the results of experimental study of sequences of speckle images for model porous media (paper) are compared with computer simulation of irreversible growth. Possible applications of speckle correlation technique for porous media structure diagnostics in industry, biology and medicine are discussed.

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Pavel V. Zakharov, Dmitry A. Zimnyakov, and V. Trifonov "Speckle correlation technique as applied to structure analysis of multiphase systems with spatially separated components", Proc. SPIE 4607, Selected Papers from Fifth International Conference on Correlation Optics, (5 February 2002); https://doi.org/10.1117/12.455199

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KEYWORDS

Speckle

Liquids

Scattering

Laser scattering

Light scattering

Computer simulations

Speckle pattern

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