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Chaos and Order in Nature: Proceedings of the International Symposium on Synergetics at Schloß Elmau, Bavaria, April 27 – May 2, 1981 PDF

280 Pages·1981·11.572 MB·English
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Preview Chaos and Order in Nature: Proceedings of the International Symposium on Synergetics at Schloß Elmau, Bavaria, April 27 – May 2, 1981

Springer Series in Synergetics Editor: Hermann Haken Synergetics, an interdisciplinary field of research, is concerned with the cooper ation ofindividual parts of a system that produces macroscopic spatial, temporal or functional structures. It deals with deterministic as well as stochastic processes. Volume 1 Synergetics An Introduction 2nd Edition ByH. Haken Volume 2 Synergetics A Workshop Editor: H. Haken Volume 3 Synergetics Far from Equilibrium Editors: A. Pacault and C. Vidal Volume 4 Structural Stability in Physics Editors: W. Glittinger and H. Eikemeier Volume 5 Pattern Fonnation by Dynamic Systems and Pattern Recognition Editor: H. Haken Volume 6 Dynamics of Synergetic Systems Editor: H. Haken Volume 7 Problems of Biological Physics By L. A. Blumenfeld Volume 8 Stochastic Nonlinear Systems in Physics, Chemistry, and Biology Editors: L. Arnold and R. Lefever Volume 9 Numerical Methods in the Study of Critical Phenomena Editors: J. Della Dora, J. Demongeot, and B. Lacolle Volume 10 The Kinetic Theory of Electromagnetic Processes By Y. L. Klimontovich Volume 11 Chaos and Order in Nature Editor: H. Haken Chaos and Order in Nature Proceedings of the International Symposium on Synergetics at Schloll Elmau, Bavaria, April 27 - May 2, 1981 Editor: H. Haken With 134 Figures Springer-Verlag Berlin Heidelberg New York 1981 Professor Dr. Hermann Haken Institut flir Theoretische Physik der Universitat Stuttgart Pfaffenwaldring 57/rv, D-7000 Stuttgart 80, Fed. Rep. of Germany ISBN-13 :978-3-642-68306-0 e-ISBN-13 :978-3-642-68304-6 DOl: 10.1007/978-3-642-68304-6 This work is subject to copyright. All rights are reserved, whether the whole or part of the material is concerned, specifically those of translation, reprinting, reuse of illustrations, broadcasting, reproduction by photocopying machine or similar means, and storage in data banks. Under § 54 of the German Copyright Law where copies are made for other than private use, a fee is payable to "Verwertungsgesellschafi Wort", Munich. © by Springer-Verlag Berlin Heidelberg 1981 Softcover reprint of the hardcover 1st edition 1981 The use of registered names, trademarks, etc. in this publication does not imply, even in the absence of a specific statement, that such names are exempt from the relevant protective laws and regulations and therefore free for general use. 2153/3130-543210 Preface This book contains the invited papers of an international symposium on synergetics; which was held at Schlol3 Elmau, Bavaria, FRG, April 27 to May 1, 1981. At our previous meetings on synergetics the self-organized formation of structures in quite different disciplines stood in the foreground of our interest. More recently it has turned out that phenomena characterized by the word "chaos" appear in various disciplines, and again far-reaching analogies in the behavior of quite different systems become visible. Therefore this meeting was devoted not only to problems connected with the occurrence of ordered structures but also to most recent results obtained in the study of chaotic motion. In the strict mathematical sense we are dealing here with deterministic chaos, i.e., irregular motion described by deter ministic equations. While in this relatively young fieJd of research computer ex periments and computer simulations predominated in the past, there now seems to be a change of trend, namely to study certain regular features of chaos by analytical metbods. I think considerable progress has been achieved in this respect quite recently. This theoretical work is paralleled by a number of very beautiful experi ments in different fields, e.g., fluid dynamics, solid-state physics, and chemistry. For the first time at this kind of meeting we have included plasma physics, which presents a number of most fascinating problems with respect to instabilities, formation of structures, and related phenomena. I hope that the readers will find this volume as useful as our previous ones, giving a survey on experimental and theoretical studies on synergetic systems. This symposium was made possible by a grant from the Volkswagenwerk Foundation, Hannover, and I would like to take this opportunity to thank the foundation for its continuous and very effective support of synergetics. lowe particular thanks to my secretary, Mrs. U.Funke, for her great and indis pensable help in organizing this symposium and for her assistance in editing these proceedings. Stuttgart, September 1981 H. Haken v Contents Part I Introduction Chaos and Order in Nature By H. Haken (With 7 Figures) 2 Part II Fluid Dynamics. Order and Chaos in Fluid Dynamics Rayleigh-Benard Convection in High Prandtl Number Fluid By P. Berge (With 11 Figures) ......................................... 14 Rayleigh-Benard Experiment in a Low Prandtl Number Fluid, Mercury By S. Fauve, A. Libchaber (With 8 Figures) ............................ 25 Transition to Turbulence Via the Statistical Limit Cycle Route By F. H. Busse (With 6 Figures) ........................................ 36 Divergence of Coherence Length and Excitation of Resonance in Taylor Vortex Flow. By A. Brandstater, G. Pfister, I. Rehberg, E.O. Schulz-DuBois (With 5 Figures) ...................................................... 45 Non-Equilibrium Phase Transitions in a Kundt's Tube By A. HUbler, G. Schubert, G. Meyer-Kress (With 3 Figures) 49 Part III Chaos in Fluids, Solid State Physics, and Chemical Reactions Stochastization of Coherent Structures by a Periodic Field By I.S. Aranson, M.I. Rabinovich, M.M. Sushchik (With 6 Figures) 54 Turbulence and Scaling in Solid State Physics By B.A. Huberman ...................................................... 64 Dynamic Instabilities Observed in the Belousov-Zhabotinsky System By C. Vidal (With 6 Figures) .......................................... 69 Part IV Instabilities and Bifurcations: Theoretical Approaches Hopf-Landau Bifurcation Near Strange Attractors By G. R. Sell . ... . ... ... ... . .. . .. . .. . ... . .. . . ... .. .. .... .. . . . .... .... .. 84 Dispersive Instabilities in Nonlinear Systems: The Real and Complex Lorenz Equation. By J.D. Gibbon (With 3 Figures) ............................. 92 Bifurcations and Multistability in Nonlinear Optics By D.F. Walls, P. Zoller, P.O. Drummond, C.V. Kunasz (With 8 Figures) 102 VII Part V Plasma Instabilities Coherent Wave Interactions in Plasmas and Active Molecular Media By H. Wil helmsson (With 1 Figure) ..................................... 112 Instability as a Property of Plasma States By E. RKuchle (With 12 Figures) ....................................... 118 Phenomena of Self Organization in Dense Plasma By H. Krompholz, G. Herziger (With 10 Figures) 131 Part V I Phase Transitions Closed-Form Approximation and Interpolation Formulae for the 3-Dimensional Ising Model. By Bai-lin Hao (With 3 Figures) .... ... ................... 144 Part VII Path Integrals: Recent Developments Path Integral Approach to Fluctuations in Dynamic Processes By H. Leschke ......................................................... 156 Definitions of Path Integrals for General Diffusion Processes By Ch. Wi sse I . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . 163 The Uses of Path Integrals for Diff~sion in Bistable Potentials By U. Weiss (With 6 Figures) .......................................... 177 Part V III General Systems Approaches Structural Stability of Stochastic Systems ByW. Ebeling ......................................................... 188 Structure-Building Phenomena in Systems with Power-Product Forces By W. Mende, M. Peschel (With 1 Figure) ... ................... .... ..... 196 Part IX Morphogenesis Spatial-Temporal Coordination of Mitotic Activity in Developing Sea Urchin Embryos. By E. Parisi, S. Filosa, A. Monroy (With 6 Figures) .......... 208 Part X Once Again in Chaos: Theoretical Approaches Modeling Chaotic Systems By R. Shaw (With 7 Figures) 218 Feigenbaum Sequences in Conservative and Dissipative Systems By R.H.G. Helleman (With 6 Figures) ................................... 232 On the Perfect Delay Convention or the Revolt of the Slaved Variables By M. Diener, T. Poston (With 23 Figures) .......... ................ ... 249 The Mechanism by Which Many Partial Difference Equations Destabilize By W. Briggs, A.C. Newell, T. Sarie (With 5 Figures) .................. 269 List of Contributors 275 VIII Part I Introduction Chaos and Order in Nature Hermann Haken Institut fUr Theoretische Physik der Universitat Stuttgart 0-7000 Stuttgart 80, Fed. Rep of Germany 1. Introduction Interdisciplinary meetings are nowadays quite fashionable, but bring ing together scientists from different disciplines does not necessarily guarantee the success of such a meeting, for instance, in the sense that a new coherent idea emerges. Therefore a few words might be in order for those readers who are not familiar with the aims of syner getics or a meeting on this topic. Synergetics deals with systems composed of many subsystems. The main aims of synergetics can be well visualized by means of an example taken from biology. Figure 1 shows two different kinds of fish . But as was found by O'A.Thompson at the beginning of this century, the shapes of the two fishes can be transformed into each other by a rather simple grid transformation. This is indeed quite a remarkable finding Fig.1 Two different kinds of fish (porcu pine fish Oiodon, left, and sunfish Ortha goriscus mola, right) can be "transformed" into each other (after O'Arcy Wentworth Thompson, "On Growth and Form", 1917). Compare text. and represents one of the methods nature applies to produce new forms. On the other hand the study of such phenomena is not the main goal of synergetics. Indeed a mathematician would perhaps not consider these two kinds of fish as different. He rather would say that we have here a case of structural stabil ity in front of us. We have a mere deformation but not a structural change, for instance the occurrence of a new additional fin. On the other hand biology provides us with a wealth of examples in which structural changes occur, for instance in embryology. An example is given in fig. 2. Here in the development of the California newt dramatic qualitative changes occur in succession, for instance incisions, and later on the appearance of extremities which in a way can be considered as singularities of otherwise smooth surfaces. Here we are now in the middle of the problems of synergetics, name ly the study of those phenomena where patterns change qualitatively and dramatically on macroscopic scales. Such changes of patterns may refer to space, time, or processes in space and time. Over the past, 2

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