Multiple scattering of light in optical diagnostics of dense sprays and other complex turbid media
Sprays and other industrially relevant turbid media can be quantitatively and qualitatively characterized using modern optical diagnostics. However, current laser based techniques generate errors in the dense region of sprays due to the multiple scattering of laser radiation e ected by the surroundi...
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Cranfield University
2006
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ndltd-bl.uk-oai-ethos.bl.uk-4389492018-05-12T03:23:47ZMultiple scattering of light in optical diagnostics of dense sprays and other complex turbid mediaBerrocal, EdouardMeglinski, I. V.2006Sprays and other industrially relevant turbid media can be quantitatively and qualitatively characterized using modern optical diagnostics. However, current laser based techniques generate errors in the dense region of sprays due to the multiple scattering of laser radiation e ected by the surrounding cloud of droplets. In most industrial sprays, the scattering of light occurs within the so-called intermediate scattering regime where the average number of scattering events is too great for single scattering to be assumed, but too few for the di usion approximation to be applied. An understanding and adequate prediction of the radiative transfer in this scattering regime is a challenging and non-trivial task that can significantly improve the accuracy and e ciency of optical measurements. A novel technique has been developed for the modelling of optical radiation propagation in inhomogeneous polydisperse scattering media such as sprays. The computational model is aimed to provide both predictive and reliable information, and to improve the interpretation of experimental results in spray diagnostics. Results from simulations are verified against the analytical approach and validated against the experiment by the means of homogeneous solutions of suspended polystyrene spheres. The ability of the technique to simulate various detection conditions, to di erentiate scattering orders and to generate real images of light intensity distributions with high spatial resolution is demonstrated. The model is used for the real case of planar Mie imaging through a typical hollow cone water spray. Versatile usage of this model is exemplified with its applications to image transfer through turbid media, correction of experimental Beer-Lambert measurements, the study of light scattering by single particles in the farfield region, and to simulate the propagation of ultra-short laser pulses within complex scattering media. The last application is fundamental for the development and testing of future optical spray diagnostics; particularly for those based on time-gating detection such as ballistic imaging.621.36Cranfield Universityhttp://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.438949http://dspace.lib.cranfield.ac.uk/handle/1826/3983Electronic Thesis or Dissertation |
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621.36 Berrocal, Edouard Multiple scattering of light in optical diagnostics of dense sprays and other complex turbid media |
description |
Sprays and other industrially relevant turbid media can be quantitatively and qualitatively characterized using modern optical diagnostics. However, current laser based techniques generate errors in the dense region of sprays due to the multiple scattering of laser radiation e ected by the surrounding cloud of droplets. In most industrial sprays, the scattering of light occurs within the so-called intermediate scattering regime where the average number of scattering events is too great for single scattering to be assumed, but too few for the di usion approximation to be applied. An understanding and adequate prediction of the radiative transfer in this scattering regime is a challenging and non-trivial task that can significantly improve the accuracy and e ciency of optical measurements. A novel technique has been developed for the modelling of optical radiation propagation in inhomogeneous polydisperse scattering media such as sprays. The computational model is aimed to provide both predictive and reliable information, and to improve the interpretation of experimental results in spray diagnostics. Results from simulations are verified against the analytical approach and validated against the experiment by the means of homogeneous solutions of suspended polystyrene spheres. The ability of the technique to simulate various detection conditions, to di erentiate scattering orders and to generate real images of light intensity distributions with high spatial resolution is demonstrated. The model is used for the real case of planar Mie imaging through a typical hollow cone water spray. Versatile usage of this model is exemplified with its applications to image transfer through turbid media, correction of experimental Beer-Lambert measurements, the study of light scattering by single particles in the farfield region, and to simulate the propagation of ultra-short laser pulses within complex scattering media. The last application is fundamental for the development and testing of future optical spray diagnostics; particularly for those based on time-gating detection such as ballistic imaging. |
author2 |
Meglinski, I. V. |
author_facet |
Meglinski, I. V. Berrocal, Edouard |
author |
Berrocal, Edouard |
author_sort |
Berrocal, Edouard |
title |
Multiple scattering of light in optical diagnostics of dense sprays and other complex turbid media |
title_short |
Multiple scattering of light in optical diagnostics of dense sprays and other complex turbid media |
title_full |
Multiple scattering of light in optical diagnostics of dense sprays and other complex turbid media |
title_fullStr |
Multiple scattering of light in optical diagnostics of dense sprays and other complex turbid media |
title_full_unstemmed |
Multiple scattering of light in optical diagnostics of dense sprays and other complex turbid media |
title_sort |
multiple scattering of light in optical diagnostics of dense sprays and other complex turbid media |
publisher |
Cranfield University |
publishDate |
2006 |
url |
http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.438949 |
work_keys_str_mv |
AT berrocaledouard multiplescatteringoflightinopticaldiagnosticsofdensespraysandothercomplexturbidmedia |
_version_ |
1718636767508168704 |