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This book addresses a subject at the crossing point of two lines of investi gation - synergetics and modern nonlinear optics. First, the book is devoted to optical patterns that previously were mainly attributed to the display of instabilities of homogeneous field distributions. Second, we deal with optical bistability and hysteresis, which historically were studied predominantly for point (lumped, spatially nondistributed) systems. In the book, which seems to be the first monograph devoted to opti cal patterns, I attempt to demonstrate that the variety of optical patterns and other synergetical phenomena is especially rich in spatially distributed bistable systems, and that instabilities of homogeneous states are not neces sary for the formation of the patterns. Of special interest are patterns such as dissipative optical solitons, which individually have particle-like features and when combined resemble molecules, crystals, biological objects, and even social groups. Another essential point is the key role of inhomogeneities of bistable sys tems. As for hysteresis, it has been studied mostly in point systems, in which, with fixed characteristics of the input signal, one of several sets of steady state output signal characteristics can form, depending on the prehistory. In spatially distributed optical systems, the kinetics of hysteresis acquires the form of "spatial hysteresis", or hysteresis of spatial distributions of field char acteristics. This problem of "stereoscopic vision" of such hysteresis was solved in optical bistability some 20 years ago, and the concepts proposed were later confirmed and expanded.
The first monograph on optical patterns Includes supplementary material: sn.pub/extras
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The book is devoted to the study of optical patterns and to optical bistability and hysteresis. In its methodology it is at the intersection of investigations in synergetics and modern nonlinear optics. This first monograph on optical patterns addresses researchers as well as students. The author studies the rich class of spatially distributed bistable optical systems, and especially dissipative optical solitons which resemble molecules, crystals or biological objects when combined. The author studies further the inhomogeneities of bistable systems and gives a consistent description of spatial hysteresis. Further topics include diffractive mechanisms for coupling, three-dimensional optical solitons, quantum aspects and optical information processing, lasers with a saturable absorber, non-linear waveguides and fibers with nonlinear gain or losses.
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