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E-raamat: Disorder Effects on Relaxational Processes: Glasses, Polymers, Proteins

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  • Formaat: PDF+DRM
  • Ilmumisaeg: 06-Dec-2012
  • Kirjastus: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Keel: eng
  • ISBN-13: 9783642785764
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Disorder Effects on Relaxational Processes: Glasses, Polymers, ProteinsSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 06-Dec-2012
  • Kirjastus: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Keel: eng
  • ISBN-13: 9783642785764
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Describes theoretical and experimental methods used to characterize and understand glass and its related systems, such as polymers. The text outlines the problems faced by researchers in the field, and describes the impact of disorder on relaxational phenomena.

The field of non-crystalline materials has seen the emergence of many challeng­ ing problems during its long history. In recent years, the interest in polymeric and biological disordered matter has stimulated new activities which in turn have enlarged the organic and inorganic glass community. The current research fields and recent progress have extended our knowledge of the rich phenomenol­ ogy of glassy systems, where the role of disorder is fundamental for the underlying microscopic dynamics. In addition, despite the lack of a unified theory, many interesting theoretical models have recently evolved. The present volume offers the reader a collection of topics representing the current state in the understanding of disorder effects as well as a survey of the basic problems and phenomena involved. The task of compiling a book devoted to disordered systems has benefited much from a seminar organized by the W.-E. Heraeus Foundation in Bad Honnef in April 1992, where we had the opportunity to discuss the project with most of the authors. Here we wish to thank the Heraeus Foundation for their support, and the authors and Springer-Verlag, especially Dr. Marion Hertel, for the pleasant cooperation.
1 Disordered Systems and Relaxation.- General Approaches.- 2 Local and
Global Relaxations in Glass-Forming Materials.- 3 Translational and
Rotational Diffusion Near the Glass Transition.- 4 Universal Patterns of
Relaxations in Complex Correlated Systems.- Models for Relaxations.- 5 Models
for Transport and Relaxation in Glass Forming and Complex Fluids:
Universality?.- 6 Mode Coupling Approach to the Glass Transition.- 7 Models
of Cooperative Dynamics for Liquids Near the Glass Transition.- 8 Models for
Anomalous Diffusion.- 9 Boundary Effects on Dipole-Dipole Interactions and
Molecular Relaxation.- Dielectric Spectroscopy and Solvation.- 10 The Scaling
of the ?- and ?-Relaxation in Low Molecular Weight and Polymeric Glassforming
Systems.- 11 Dielectric Aspects of Dipolar Solvation at the Glass
Transition.- Nuclear Magnetic Resonance.- 12 NMR Studies of Disorder in
Molecular Glasses and Crystals.- 13 Molecular Dynamics in Polymers from
Multidimensional NMR.- Hole Burning.- 14 Optical Spectroscopy and Disorder
Phenomena in Polymers, Proteins and Glasses.- 15 Disorder-Induced Relaxation
Processes in Amorphous Solids at Low Temperatures.- 16 Stochastic
Interpretation of Inhomogeneous Spectroscopic Line Shapes.- Transport
Phenomena.- 17 Basic Aspects of Energy Transport in Disordered Systems.- 18
Exciton and Charge Carrier Transport in Random Organic Solids.- 19 Dynamics
of Energy Transfer in Aromatic Polymers.- 20 Energy Transport in Disordered
Molecular Crystals.- Dynamics in Complex Systems.- 21 Relaxation and Disorder
in Proteins.- 22 Origins of Nonexponential Relaxation in Proteins.- 23
Dynamics of Irreversibly Forming Macromolecules.- 24 Glass Transitions and
Relaxation Phenomena in Orientational Glasses and Supercooled Plastic
Crystals.- 25 Structural Relaxation inDisordered Diblock Copolymer Melts.- 26
Dynamics of Rotational Motion in Liquid Crystalline Systems.
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