Multiple light scattering in Taylor-Couette flow

D. Bicout and G. Maret

Physica A: Statistical Mechanics and its Applications, 1994, vol. 210, issue 1, 87-112

Abstract: We report dynamic light scattering experiments on turbid colloidal suspension under stationary and laminar flow, as well as in the regime of flow instabilities. It is shown that the time autocorrelation function C1(t) = /<¦E(0)¦2> of the scattered light field E(t) is not sensitive to the mean velocity flow but rather to the root mean square of velocity gradient. C1(t) is characterised on the level of each scattering event by the correlation time required by a pair of scatterers initially separated by a transport mean free path to move a relative distance of optical wavelength due to the velocity gradient. We verified this theoretical analysis using planar Couette flow as an example for homogenous velocity gradients, and planar Poiseuille flow for inhomogeneous velocity gradients. Agreement between expirement and theory is excellent. Finally, this technique is applied to spatially varying velocity gradient fields for measuring the threshold and wave number of the Taylor-Coutte instability. This illustrates the possibility of studying hydrodynamic instabilities and quasi-local velocity gradients even under conditions of strong multiple scattering.

Date: 1994
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Persistent link: https://EconPapers.repec.org/RePEc:eee:phsmap:v:210:y:1994:i:1:p:87-112

DOI: 10.1016/0378-4371(94)00101-4

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