This high level monograph for the optics research market explores a large number of novel interactive methods and algorithms for calculating the transmission function of phase diffractive optical elements. The text includes accounts of well-established methods and algorithms for calculating DOEs, but its major contribution is to include current methods and examine the theoretical and practical aspects of synthesising optical components. All the methods discussed in this book have been verified by their numerical simulation. A fast fourier transform algorithm presents computational basis of all the methods considered. A portion of the algorithms have received a comparative study in terms of their suitability for solving the same problem. For a number of the interactive algorithms a rigorous proof to their convergence is given.
This high level monograph for the optics research market explores a large number of novel interactive methods and algorithms for calculating the transmission function of phase diffractive optical elements. The text includes accounts of well-established methods and algorithms for calculating DOEs, but its major contribution is to include current methods and examine the theoretical and practical aspects of synthesising optical components. All the methods discussed in this book have been verified by their numerical simulation. A fast fourier transform algorithm presents computational basis of all the methods considered. A portion of the algorithms have received a comparative study in terms of their suitability for solving the same problem. For a number of the interactive algorithms a rigorous proof to their convergence is given.
This book describes the processes of optical information recording in photorefractive crystals and applications of these materials in phase-conjugating devices, holographic interferometry, optical computers and sensors. It is in essence an extensive introduction to this new and rapidly developing area of quantum electronics. It presents physical concepts, fundamentals of theory, and important experimental data. A rigorous treatment of basic phenomena is accompanied by a quantitative analysis, which makes the book interesting to experts and accessible for newcomers to the field. Of particular interest to researchers is an extensive summary of basic physical and holographic parameters of all presently known photorefractive crystals and structures and also a detailed critical analysis of their applications.
This book provides a multi-scale and multidisciplinary perspective on the geology of Azerbaijan, a country characterized by a unique tectonic and geological setting including the Greater and Lesser Caucasus, the Talysh Mountains, and the Caspian and Kur Basins. Essential geological and geophysical data shed light on the principles of the evolution of the Earth within the region under study, seismic activity and the distribution of economic deposits. Further, special attention is paid to the history of geological-geophysical studies in the region. A combined, comprehensive interpretation of Azerbaijan’s near-surface and deep geological structure is achieved on the basis of an integrative analysis of stratigraphic, magmatic, morphological, lithological, tectonic, neotectonic, geophysical and other data, combining not only Russian and Azerbaijani-published, but also wholly new geological data. Volume I addresses the needs of researchers focused on geology and the environmental sciences, but will also be of interest to anyone looking to learn more about the natural phenomena in Azerbaijan, a beautiful country situated at the boundary between Europe and Asia.
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