Last edited by Doshakar
Thursday, May 14, 2020 | History

9 edition of Patterns and Interfaces in Dissipative Dynamics found in the catalog.

Patterns and Interfaces in Dissipative Dynamics

by L.M. Pismen

  • 247 Want to read
  • 13 Currently reading

Published by Springer .
Written in English

    Subjects:
  • Classical mechanics,
  • Mathematics and Science,
  • Science/Mathematics,
  • Mechanics - Dynamics - General,
  • Science,
  • Applied,
  • Chemistry - General,
  • Physics,
  • Science / Physics,
  • amplitude equations,
  • dissipative dynamics,
  • open systems,
  • pattern formation

  • Edition Notes

    Springer Series in Synergetics

    ContributionsY. Pomeau (Foreword)
    The Physical Object
    FormatHardcover
    Number of Pages384
    ID Numbers
    Open LibraryOL9056109M
    ISBN 103540304304
    ISBN 109783540304302

    Search the world's most comprehensive index of full-text books. My library.   Phase separation is a cooperative process, the kinetics of which underpin the orderly morphogenesis of domain patterns on mesoscopic scales1,2. Systems of Cited by: 1.

    This volume contains papers contributed to the NATO Advanced Research Workshop "Nonlinear Evolution of Spatio-Temporal Structures in Dissipative Continuous Systems" held in Streitberg, Fed. Rep. Germany, Sept. 24 thro The purpose of the . This book discusses the emergence of dissipative structures. Organized into 10 chapters, this book begins with an overview of the stability of a fluid layer with potentially unstable density stratification in the field of gravity. This text then explains the theoretical description of the dynamics of .

    The dissipative soliton concept is a fundamental extension of the concept of solitons in conservative and integrable systems. It includes ideas from three major sources, namely standard soliton theory developed since the s; nonlinear dynamics theory; and Prigogine's ideas of systems far from equilibrium. Subsequently, numerous complex stable patterns and novel dissipative dynamics in this model have been investigated, including stable dissipative vortices, DS clusters, [10–12] necklace-ring patterns, [13,14] bound states, dissipative optical bullets, phase controlling of DSs collision, [17–19] and self-structuring of breathing vortices.


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Patterns and Interfaces in Dissipative Dynamics by L.M. Pismen Download PDF EPUB FB2

Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium is a paradigmatic case of emergent behaviour associated with complex by: Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium is a paradigmatic case of emergent behaviour associated with complex systems.

It is encountered in a great variety of settings, both in nature and technology, and has numerous applications ranging from nonlinear. Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium is a paradigmatic case of emergent behaviour associated with complex systems.

It is encountered in a great variety of settings, both in nature and technology, and has numerous applications ranging from nonlinear optics through solid and fluid mechanics, physical chemistry and chemical engineering to : $ Patterns and Interfaces in Dissipative Dynamics - L.M.

Pismen - Google Books Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium is a paradigmatic case of emergent. Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium is a paradigmatic case of emergent behaviour associated with complex systems.

It is encountered in a great variety Patterns and Interfaces in Dissipative Dynamics book settings, both in nature and technology, and has numerous applications ranging from nonlinear optics through solid and fluid mechanics, physical chemistry and chemical engineering to biology. Patterns and Interfaces in Dissipative Dynamics (Springer Series in Synergetics) L.M.

Pismen Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium occurs in a variety of settings in nature and technology, and has applications ranging from nonlinear optics through solid and fluid mechanics, physical chemistry and chemical engineering to biology.

In summary, this book is a clear and comprehensive review of this interesting area of pattern formation, and usefully complements existing texts. It is particularly useful as a reference to the development of the theory of stability of fronts and defects.".

Patterns and Interfaces in Dissipative Dynamics by L. Pismen,available at Book Depository with free delivery worldwide. Definition of the Subject. A pattern is an inhomogeneous state of a physical system that arises spontaneously under spatiallyhomogeneous conditions.

Spontaneous pattern formation has been first observed by Faraday [1] invibrated liquid layers and Bénard [2] in fluids heated from below. Request PDF | On Jan 1,L. Pismen and others published Patterns and Interfaces in Dissipative Dynamics | Find, read and cite all the research you need on ResearchGateAuthor: Len Pismen.

Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium is a paradigmatic case of emergent behaviour associated with complex systems. It is encountered in a great variety of settings, both in nature and technology, and has numerous applications ranging from nonlinear optics through solid and fluid mechanics, physical chemistry and chemical engineering to biology Book Edition: Softcover Reprint of Hardcover 1st Ed.

Patterns and interfaces in dissipative dynamics. [Len M Pismen] -- Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium is a paradigmatic case of emergent behaviour associated with complex systems.

Understanding the spontaneous formation and dynamics of spatiotemporal patterns in dissipative nonequilibrium systems is one of the major challenges in nonlinear science.

This collection of expository papers and advanced research articles, written. Print book: EnglishView all editions and formats Summary: Spontaneous pattern formation in nonlinear dissipative systems far from equilibrium occurs in a variety of settings in nature and technology, and.

Request PDF | OnJONATHAN DAWES and others published Patterns and Interfaces in Dissipative Dynamics. By L. Pismen. Springer, pp. This page will automatically redirect to the new ADS interface at that point. SAO/NASA ADS Physics Abstract Service Find Similar Abstracts (with default settings below).

analysis of the models, and interface with external modeling and analysis tools. This paper is focused on a pattern for modeling layered interfaces, and making this pattern available for reuse by other systems engineers. It is common in systems engineering to represent a single item at different levels of.

Dynamics and Patterns in Complex Fluids: New Aspects of the Physics-Chemistry Interface (Springer Proceedings in Physics) [Onuki, Akira] on *FREE* shipping on qualifying offers. Dynamics and Patterns in Complex Fluids: New Aspects of the Physics-Chemistry Interface (Springer Proceedings in Format: Paperback.

Dynamics and Bifurcation of Patterns in Dissipative Systems. Edited by DANGELMAYR GERHARD & OPREA IULIANA. Published by World Scientific Publishing Co.

Pte. LtdCited by: Patterns The Charts below represent the core DNA of the PatternDynanics systems thinking framework. Start with the first one and explore the systems thinking Principle behind each of the First Order Patterns by clicking on their respective icons. The forced water–oil displacement in capillary is a model that has important applications such as the groundwater remediation and the oil recovery.

Whereas it is difficult for experimental studies to observe the displacement process in a capillary at nanoscale, the computational simulation is a unique approach in this regard. In the present work, the many-body dissipative particle dynamics Cited by: [Springer Series in Synergetics] L.M.

Pismen Y. Pomeau - Patterns and interfaces in dissipative dynamics ( Springer).pdf.The different signs of chirp and frequency offset (ω) appearing for each region (high Q and low Q) mean that the phase profile across the soliton is concave up in one case, and concave down in the we can designate them “solitons” and “antisolitons” for convenience.

The phase profile for the CGLE solitons is not exactly parabolic, of course, but it is clear from Figs. 5(a Cited by: 9.