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This monograph is devoted to the description of the physical fundamentals of laser refractography—a novel informational-measuring technique for the diagnostics of optically inhomogeneous media and flows, based on the idea of using spatially structured probe laser radiation in combination with its digital recording and c- puter techniques for the differential processing of refraction patterns. Considered are the physical fundamentals of this technique, actual optical schemes, methods of processing refraction patterns, and possible applications. This informational technique can be employed in…mehr
This monograph is devoted to the description of the physical fundamentals of laser refractography—a novel informational-measuring technique for the diagnostics of optically inhomogeneous media and flows, based on the idea of using spatially structured probe laser radiation in combination with its digital recording and c- puter techniques for the differential processing of refraction patterns. Considered are the physical fundamentals of this technique, actual optical schemes, methods of processing refraction patterns, and possible applications. This informational technique can be employed in such areas of science and technology as require remote nonperturbative monitoring of optical, thermophysical, chemical, aerohydrodynamic, and manufacturing processes. The monograph can also be recommended for students and postgraduates of - formational, laser, electro-optical, thermophysical, chemical, and other specialties. Laser refractography is a conceptually novel refraction method for the diagn- tics of inhomogeneous media, based on the idea of using spatially structured probe laser radiation in combination with its digital recording and computer techniques for the differential processing of refraction patterns.
Bronyus Simovich Rinkevichyus graduated from Moscow Power Engineering Institute with a degree in applied physical optics in 1965, defended his candidate's thesis in electronics at Moscow Power Engineering Institute in 1969, defended his doctoral thesis in optics at P.I. Lebedev Physical Institute of the Russian Academy of Sciences in 1980, Full Professor at V.A. Fabrikant Chair of Physics of Moscow Power Engineering Institute (Technical University), Doctor of Physics and Mathematics Science, author and co-author of over 300 scientific papers, 3 monographs, and 5 books published in the Russian and English languages, Member (affiliate) of IEEE,Full Member of D.S. Rozhdestvensky Optical Society, Full Member of the International Academy of Sciences of Higher School. The main fields of his scientific interests are coherent and informational optics, physical fundamentals of the laser diagnostics of flows, and history of science. Olga Anatolyevna Evtikhieva graduated from Moscow Power Engineering Institute with a degree in optoelectronic instruments in 1975, defended her candidate's thesis at Moscow Power Engineering Institute in 1980, Head of V.A. Fabrikant Chair of Physics of Moscow Power Engineering Institute (Technical University), Candidate of Technical Sciences, author and co-author of over 80 scientific papers and 4 books. The main fields of her scientific interest are applied and informational optics and laser refractometry. Irina Lvovna Raskovskaya graduated from Moscow Power Engineering Institute with a degree in radio physics in 1981, graduated from Moscow State University with a degree in theoretical physics in 1990, defended her candidate's thesis at Moscow State Technical University Stankin in 2005, Senior Researcher at V.A. Fabrikant Chair of Physics of Moscow Power Engineering Institute (Technical University), Candidate of Physics and Mathematics science, author and co-author of over 50 scientific papers. The main fields of her scientific interestsare propagation of radio and optical waves in inhomogeneous media and laser measuring systems.
Inhaltsangabe
Structured Laser Radiation (SLR).- Physical Processes Giving Rise to Optical Inhomogeneities in Media.- Refraction of Laser Beams in Layered Inhomogeneous Media.- Refraction of Structured Laser Radiation in Spherical Temperature Inhomogeneities.- Laser Refractographic Systems.- Digital Refractogram Recording and Processing.- Laser Refractography—a Method for Quantitative Visualization of Optically Inhomogeneous Media.
Structured Laser Radiation (SLR).- Physical Processes Giving Rise to Optical Inhomogeneities in Media.- Refraction of Laser Beams in Layered Inhomogeneous Media.- Refraction of Structured Laser Radiation in Spherical Temperature Inhomogeneities.- Laser Refractographic Systems.- Digital Refractogram Recording and Processing.- Laser Refractography-a Method for Quantitative Visualization of Optically Inhomogeneous Media.
Structured Laser Radiation (SLR).- Physical Processes Giving Rise to Optical Inhomogeneities in Media.- Refraction of Laser Beams in Layered Inhomogeneous Media.- Refraction of Structured Laser Radiation in Spherical Temperature Inhomogeneities.- Laser Refractographic Systems.- Digital Refractogram Recording and Processing.- Laser Refractography—a Method for Quantitative Visualization of Optically Inhomogeneous Media.
Structured Laser Radiation (SLR).- Physical Processes Giving Rise to Optical Inhomogeneities in Media.- Refraction of Laser Beams in Layered Inhomogeneous Media.- Refraction of Structured Laser Radiation in Spherical Temperature Inhomogeneities.- Laser Refractographic Systems.- Digital Refractogram Recording and Processing.- Laser Refractography-a Method for Quantitative Visualization of Optically Inhomogeneous Media.
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