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| Author | : E. Berrocal |
| Publisher | : |
| Total Pages | : 245 |
| Release | : 2006 |
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| Release | : 2006 |
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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 test.
| Author | : Alex A. Kokhanovsky |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 332 |
| Release | : 2004-08-05 |
| Genre | : Computers |
| ISBN | : 9783540211846 |
The theory of the scattering of light by small particles is very important in a wide range of applications in atmospheric physics and atmospheric optics, ocean optics, remote sensing, astronomy and astrophysics and biological optics. This book summarises current knowledge of the optical properties of single small particles and natural light scattering media such as snow, clouds, foam aerosols etc. The book considers both single and multiple light scattering regimes, together with light scattering and radiative transfer in close-packed media. The third edition incorporates new findings in the area of light scattering media optics in an updated version of the text.
| Author | : P. Buchhave |
| Publisher | : Springer Science & Business Media |
| Total Pages | : 387 |
| Release | : 2013-11-11 |
| Genre | : Science |
| ISBN | : 1489912711 |
The origin of optical methods for fluid flow investigations appears to be nontraceable. This is no matter for surprise. After all seeing provides the most direct and common way for humans to learn about their environment. But at the same time some of the most sophisticated methods for doing measurements in fluids are also based on light and often laser light. A very large amount of material has been published in this area over the last two decades. Why then another publication? Well, the field is still in a state of rapid development. It is characterised by the use of results and methods developed within very different areas like optical physics, spectroscopy, communication systems, electronics and computer science, mechanical engineering, chemical engineering and, of course, fluid dynamics. We are not aware of a book containing both introductory and more advanced material that covers the same material as presented here. The book is the result of a compilation and expansion of material presented at a summer school on Optical Diagnosticsfor Flow Processes,held at RiS0 National Laboratory and the Technical University of Denmark in September 1993. The aim of the course was to provide a solid background for understanding, evaluating, and using modem optical diagnostic methods, addressing Ph. D. students and researchers active in areas of fluid flow research. The disciplines represented by the participants ranged from atmospheric fluid dynamics to biomedicine.
| Author | : Alexander Kokhanovsky |
| Publisher | : Springer |
| Total Pages | : 0 |
| Release | : 2023-09-15 |
| Genre | : Science |
| ISBN | : 9783031103001 |
This book is aimed at description of recent progress in studies of multiple and single light scattering in turbid media. Light scattering and radiative transfer research community will greatly benefit from the publication of this book.
| Author | : Alexander Kokhanovsky |
| Publisher | : Springer |
| Total Pages | : 0 |
| Release | : 2024-10-06 |
| Genre | : Science |
| ISBN | : 9783031665776 |
The book is aimed at description of recent progress in studies of light scattering in turbid media In particular, atmospheric optics and remote sensing research community will greatly benefit from the publication of this book.
| Author | : Oleg V. Angelsky |
| Publisher | : SPIE Press |
| Total Pages | : 206 |
| Release | : 1999 |
| Genre | : Computers |
| ISBN | : 9780819434906 |
This monograph examines the possibilities for diagnostics of light-scattering objects and media by utilizing the properties of coherent optical radiation. Special emphasis is placed on diagnostics of rough surfaces. Ideas formulated in classical work on statistical radiophysics and optics have been adapted to diagnostic applications. The text includes unique techniques and unconventional methods aimed at obtaining the maximum information available.
| Author | : V. A. Timofeev |
| Publisher | : |
| Total Pages | : 79 |
| Release | : 1969 |
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The purpose of the work is a study of diffusion of light in those media in which it is impossible to disregard multiple light scattering. The solution of this problem is of interest to scientists and also in the practice of diverse fields of knowledge: atmospheric optics and optics of the sea, astrophysics, lighting engineering, densitometry, hydrobiology, and others. (Author).
| Author | : Alexander Kokhanovsky (K.) |
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| Release | : 2001 |
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