ill the past three decades there has been enonnous progress in identifying the es sential role that "nonlinearity" plays in physical systems. Classical nonlinear wave equations can support localized, stable "soliton" solutions, and nonlinearities in quantum systems can lead to self-trapped excitations, such as polarons. Since these nonlinear excitations often dominate the transport and response properties of the systems in which they exist, accurate modeling of their effects is essential to interpreting a wide range of physical phenomena. Further, the dramatic de velopments in "deterministic chaos", including the recognition that even simple nonlinear dynamical systems can produce seemingly random temporal evolution, have similarly demonstrated that an understanding of chaotic dynamics is vital to an accurate interpretation of the behavior of many physical systems. As a conse quence of these two developments, the study of nonlinear phenomena has emerged as a subject in its own right. During these same three decades, similar progress has occurred in understand ing the effects of "disorder". Stimulated by Anderson's pioneering work on "dis ordered" quantum solid state materials, this effort has also grown into a field that now includes a variety of classical and quantum systems and treats "disorder" arising from many sources, including impurities, random spatial structures, and stochastic applied fields. Significantly, these two developments have occurred rather independently, with relatively little overlapping research.
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I Localization and Nonlinearity.- Nonlinearity and Localization in One-Dimensional Random Media.- Wave Transmission in a One-Dimensional Nonlinear Lattice: Multistability and Noise.- A New Look at Hopping, Trapping and Anderson Localisation.- Nonlinearity and Randomness in Quantum Transport.- Quasiparticle Motion on a Chain with Alternating Site Energies and Intersite Interactions.- Quasiperiodic Physics in One Dimension.- Density of States in Disordered Two-Dimensional Electron Systems.- II Solitons and Disorder.- Soliton Scattering by Impurities. An Analytical Approach to Interference Effects.- Space Stochastic Perturbations of a Sine-Gordon Soliton.- Chaotic Dynamics of Solitons and Breathers.- Proton Solitons in Hydrogen-Bonded Networks.- III Scattering and Localization.- The Statistics of Random Backscatter: A Comparison of Theory with Computer Simulations.- Coherent Backscattering and Anderson Localization of Light.- Weak Localization, Correlations and Fluctuations in Light Scattering from a Disordered Medium.- Nonresonant Effects in CO2 Amplifier of Ultrashort Laser Pulses.- IV Postscript.- Disorder and Nonlinearity.- Index of Contributors.
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Da: Brook Bookstore On Demand, Napoli, NA, Italia
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Da: BuchWeltWeit Ludwig Meier e.K., Bergisch Gladbach, Germania
Taschenbuch. Condizione: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -ill the past three decades there has been enonnous progress in identifying the es sential role that 'nonlinearity' plays in physical systems. Classical nonlinear wave equations can support localized, stable 'soliton' solutions, and nonlinearities in quantum systems can lead to self-trapped excitations, such as polarons. Since these nonlinear excitations often dominate the transport and response properties of the systems in which they exist, accurate modeling of their effects is essential to interpreting a wide range of physical phenomena. Further, the dramatic de velopments in 'deterministic chaos', including the recognition that even simple nonlinear dynamical systems can produce seemingly random temporal evolution, have similarly demonstrated that an understanding of chaotic dynamics is vital to an accurate interpretation of the behavior of many physical systems. As a conse quence of these two developments, the study of nonlinear phenomena has emerged as a subject in its own right. During these same three decades, similar progress has occurred in understand ing the effects of 'disorder'. Stimulated by Anderson's pioneering work on 'dis ordered' quantum solid state materials, this effort has also grown into a field that now includes a variety of classical and quantum systems and treats 'disorder' arising from many sources, including impurities, random spatial structures, and stochastic applied fields. Significantly, these two developments have occurred rather independently, with relatively little overlapping research. 156 pp. Englisch. Codice articolo 9783642748950
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Da: buchversandmimpf2000, Emtmannsberg, BAYE, Germania
Taschenbuch. Condizione: Neu. This item is printed on demand - Print on Demand Titel. Neuware -ill the past three decades there has been enonnous progress in identifying the es sential role that 'nonlinearity' plays in physical systems. Classical nonlinear wave equations can support localized, stable 'soliton' solutions, and nonlinearities in quantum systems can lead to self-trapped excitations, such as polarons. Since these nonlinear excitations often dominate the transport and response properties of the systems in which they exist, accurate modeling of their effects is essential to interpreting a wide range of physical phenomena. Further, the dramatic de velopments in 'deterministic chaos', including the recognition that even simple nonlinear dynamical systems can produce seemingly random temporal evolution, have similarly demonstrated that an understanding of chaotic dynamics is vital to an accurate interpretation of the behavior of many physical systems. As a conse quence of these two developments, the study of nonlinear phenomena has emerged as a subject in its own right. During these same three decades, similar progress has occurred in understand ing the effects of 'disorder'. Stimulated by Anderson's pioneering work on 'dis ordered' quantum solid state materials, this effort has also grown into a field that now includes a variety of classical and quantum systems and treats 'disorder' arising from many sources, including impurities, random spatial structures, and stochastic applied fields. Significantly, these two developments have occurred rather independently, with relatively little overlapping research.Springer-Verlag KG, Sachsenplatz 4-6, 1201 Wien 156 pp. Englisch. Codice articolo 9783642748950
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Taschenbuch. Condizione: Neu. Druck auf Anfrage Neuware - Printed after ordering - ill the past three decades there has been enonnous progress in identifying the es sential role that 'nonlinearity' plays in physical systems. Classical nonlinear wave equations can support localized, stable 'soliton' solutions, and nonlinearities in quantum systems can lead to self-trapped excitations, such as polarons. Since these nonlinear excitations often dominate the transport and response properties of the systems in which they exist, accurate modeling of their effects is essential to interpreting a wide range of physical phenomena. Further, the dramatic de velopments in 'deterministic chaos', including the recognition that even simple nonlinear dynamical systems can produce seemingly random temporal evolution, have similarly demonstrated that an understanding of chaotic dynamics is vital to an accurate interpretation of the behavior of many physical systems. As a conse quence of these two developments, the study of nonlinear phenomena has emerged as a subject in its own right. During these same three decades, similar progress has occurred in understand ing the effects of 'disorder'. Stimulated by Anderson's pioneering work on 'dis ordered' quantum solid state materials, this effort has also grown into a field that now includes a variety of classical and quantum systems and treats 'disorder' arising from many sources, including impurities, random spatial structures, and stochastic applied fields. Significantly, these two developments have occurred rather independently, with relatively little overlapping research. Codice articolo 9783642748950
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