Matthias Sentis scite author profile

We report the first experimental validation of the Vectorial Complex Ray Model (VCRM) using the scattering patterns of large oblate droplets trapped in an acoustic field. The two principal radii and refractive index of the droplets are retrieved with a minimization method that involves VCRM predictions and experimental light scattering patterns. The latter are recorded in the droplet equatorial plane between the primary rainbow region and the associated hyperbolic-umbilic diffraction catastrophe. The results demonstrate that the VCRM can predict the fine and coarse stuctures of scattering patterns with good precision, opening up perspectives for the characterization of large non-spherical particles.

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Bubbles, drops, and solid particles recognition from real or virtual photonic jets reconstructed by digital in-line holography

Sentis

Onofri

Lamadie

2018

Opt. Lett.

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The image of the photonic jet (also called caustic) formed by a large, transparent, and spherical particle, reconstructed by digital in-line holography, is shown to be similar to the Airy pattern observed at the focus of a diffraction-limited lens. The analysis of this image, real or virtual depending on whether the particle relative refractive index is above or below one, allows characterizing the particle composition via its refractive index. Experiments clearly demonstrate the value of this method for the simultaneous 3D characterization and differentiation of the dynamics, size, and composition of gas, liquid, and solid particles in multiphase flows.

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Digital in-line holography for the characterization of flowing particles in astigmatic optical systems

Sentis

Bruel

Charton

et al. 2017

Optics and Lasers in Engineering

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Scattering of light by large bubbles: Coupling of geometrical and physical optics approximations

Sentis

Onofri

Méès

et al. 2016

Journal of Quantitative Spectroscopy and Radiative Transfer

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Matthias Sentis

Experimental validation of the vectorial complex ray model on the inter-caustics scattering of oblate droplets

Bubbles, drops, and solid particles recognition from real or virtual photonic jets reconstructed by digital in-line holography

Digital in-line holography for the characterization of flowing particles in astigmatic optical systems

Scattering of light by large bubbles: Coupling of geometrical and physical optics approximations

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