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Topological Aspects of the Dynamics of Fluids and Plasmas

This volume contains papers arising out of the program of the Institute for Theoretical Physics (ITP) of the University of California at Santa Bar­ bara, August-December 1991, on the subject "Topological Fluid Dynamics". The first group of papers cover the lectures on Knot Theory, Relaxati...

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Bibliographic Details
Other Authors: Moffatt, H.K. (Editor), Zaslavsky, G.M. (Editor), Comte, P. (Editor), Tabor, M. (Editor)
Format: eBook
Language:English
Published: Dordrecht Springer Netherlands 1992, 1992
Edition:1st ed. 1992
Series:NATO Science Series E:, Applied Sciences
Subjects:
Classical And Continuum Physics
Nuclear Physics
Geometry
Physics
Astrophysics
Online Access:
Collection: Springer Book Archives -2004 - Collection details see MPG.ReNa
Table of Contents:
  • Kinematical Instability and Line-Stretching in Relation to the Geodesics of Fluid Motion
  • The Behavior of Active and Passive Particles in a Chaotic Flow
  • Chaos Associated with Fluid Inertia
  • Instability Criteria in Fluid Dynamics
  • Localized Instabilities in Fluids
  • Kinematic Fast Dynamo Action in a Time-Periodic Chaotic Flow
  • An Exact Turbulent Closure for the Hydromagnetic Dynamo
  • Author Index
  • Blow Up in Axisymmetric Euler Flows
  • Is There a Finite-Time Singularity in Axisymmetric Euler Flows?
  • Evidence for a Singularity of the Three-Dimensional Incompressible Euler Equations
  • Singularity Formation on Vortex Sheets: The Raleigh-Taylor Problem
  • V. Vortex Interactions and the Structure of Turbulence
  • 2D Turbulence: New Results for Re ? ?
  • On Vortex Reconnection and Turbulence
  • New Aspects of Vortex Dynamics: Helical Waves, Core Dynamics, Viscous Helicity Generation, and Interaction with Turbulence
  • Intermittency Growth in 3D Turbulence
  • Dynamical Mechanisms for Intermittency Effects in Fully Developed Turbulence
  • The Multispiral Model of Turbulence and Intermittency
  • Measurements of Local Scaling of Turbulent Velocity Fields at High Reynolds Numbers
  • On the Determination of Universal MultifractalParameters in Turbulence
  • VI. Chaos, Instability and Dynamo Theory
  • Anomolous Transport and Fractal Kinectics
  • I. Introductory Lectures
  • Relaxation under Topological Constraints
  • Knot Theory, Jones’ Polynomials, Invariants of 3-Manifolds, and the Topological Theory of Fluid Dynamics
  • Topology of Knots
  • Stretching and Alignment in General Flow Fields: Classical Trajectories from Reynolds Number Zero to Infinity
  • Fast Dynamo Theory
  • II. Relaxation and Minimum Energy States
  • Relaxation and Topology in Plasma Experiments
  • Taylor’s Relaxation in an Unbounded Domain of Space
  • Force-Free Magnetic Fields with Constant Alpha
  • Minimum Energy Magnetic Fields with Toroidal Topology
  • Research Announcement on the “Energy” of Knots
  • III. Helicity, Linkage, and Flow Topology
  • The Helicity of a Knotted Vortex Filament
  • A Heirarchy of Linking Integrals
  • Borromeanism and Bordism
  • Topology of Steady Fluid Flows
  • IV. The Euler Equations: Extremal Properties and Finite Time Singularities
  • Extremal Properties and Hamiltonian Structure of the Euler Equations

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