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Singularities and Groups in Bifurcation Theory: Volume II Softcover reprint of the original 1st ed. 1988 [Mīkstie vāki]

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  • Formāts: Paperback / softback, 536 pages, height x width: 235x155 mm, weight: 832 g, XVI, 536 p., 1 Paperback / softback
  • Sērija : Applied Mathematical Sciences 69
  • Izdošanas datums: 08-Oct-2011
  • Izdevniecība: Springer-Verlag New York Inc.
  • ISBN-10: 1461289297
  • ISBN-13: 9781461289296
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Singularities and Groups in Bifurcation Theory: Volume II Softcover reprint of the original 1st ed. 1988Palielināt
  • Formāts: Paperback / softback, 536 pages, height x width: 235x155 mm, weight: 832 g, XVI, 536 p., 1 Paperback / softback
  • Sērija : Applied Mathematical Sciences 69
  • Izdošanas datums: 08-Oct-2011
  • Izdevniecība: Springer-Verlag New York Inc.
  • ISBN-10: 1461289297
  • ISBN-13: 9781461289296
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781461289296.html
Keywords:
Bifurcation theory studies how the structure of solutions to equations changes as parameters are varied. The nature of these changes depends both on the number of parameters and on the symmetries of the equations. Volume I discusses how singularity-theoretic techniques aid the understanding of transitions in multiparameter systems. This volume focuses on bifurcation problems with symmetry and shows how group-theoretic techniques aid the understanding of transitions in symmetric systems. Four broad topics are covered: group theory and steady-state bifurcation, equicariant singularity theory, Hopf bifurcation with symmetry, and mode interactions. The opening chapter provides an introduction to these subjects and motivates the study of systems with symmetry. Detailed case studies illustrate how group-theoretic methods can be used to analyze specific problems arising in applications.

Papildus informācija

Springer Book Archives
of Volume II.- XI Introduction.- §0. Introduction.- §1. Equations with
Symmetry.- §2. Techniques.- §3. Mode Interactions.- §4. Overview.- XII
Group-Theoretic Preliminaries.- §0. Introduction.- §1. Group Theory.- §2.
Irreducibility.- §3. Commuting Linear Mappings and Absolute Irreducibility.-
§4. Invariant Functions.- §5. Nonlinear Commuting Mappings.- §6.* Proofs of
Theorems in §§4 and 5.- §7.* Tori.- XIII Symmetry-Breaking in Steady-State
Bifurcation.- §0. Introduction.- §1. Orbits and Isotropy Subgroups.- §2.
Fixed-Point Subspaces and the Trace Formula.- §3. The Equivariant Branching
Lemma.- §4. Orbital Asymptotic Stability.- §5. Bifurcation Diagrams and
DnSymmetry.- §6. Subgroups of SO(3).- §7. Representations of SO(3) and
O(3): Spherical Harmonics.- §8. Symmetry-Breaking from SO(3).- §9.
Symmetry-Breaking from O(3).- §10.* Generic Spontaneous Symmetry-Breaking.-
Case Study 4 The Planar Bénard Problem.- §0. Introduction.- §1. Discussion of
the PDE.- §2. One-Dimensional Fixed-Point Subspaces.- §3. Bifurcation
Diagrams and Asymptotic Stability.- XIV Equivariant Normal Forms.- §0.
Introduction.- §1. The Recognition Problem.- §2.* Proof of Theorem 1.3.- §3.
Sample Computations of RT(h, ?).- §4. Sample Recognition Problems.- §5.
Linearized Stability and ?-equivalence.- §6. Intrinsic Ideals and Intrinsic
Submodules.- §7. Higher Order Terms.- XV Equivariant Unfolding Theory.- §0.
Introduction.- §1. Basic Definitions.- §2. The Equivariant Universal
Unfolding Theorem.- §3. Sample Universal ?-unfoldings.- §4. Bifurcation with
D3 Symmetry.- §5. The Spherical Bénard Problem.- §6. Spherical Harmonics of
Order 2.- §7.* Proof of the Equivariant Universal Unfolding Theorem.- §8.*
The Equivariant PreparationTheorem.- Case Study 5 The Traction Problem for
Mooney-Rivlin Material.- §0. Introduction.- §1. Reduction to D3 Symmetry in
the Plane.- §2. Taylor Coefficients in the Bifurcation Equation.- §3.
Bifurcations of the Rivlin Cube.- XVI Symmetry-Breaking in Hopf Bifurcation.-
§0. Introduction.- §1. Conditions for Imaginary Eigenvalues.- §2. A Simple
Hopf Theorem with Symmetry.- §3. The Circle Group Action.- §4. The Hopf
Theorem with Symmetry.- §5. Birkhoff Normal Form and Symmetry.- §6. Floquet
Theory and Asymptotic Stability.- §7. Isotropy Subgroups of ? × S1.- §8.*
Dimensions of Fixed-Point Subspaces.- §9. Invariant Theory for ? × S1.-
10.
Relationship Between Liapunov-Schmidt Reduction and Birkhoff Normal Form.-
§11.* Stability in Truncated Birkhoff Normal Form.- XVII Hopf Bifurcation
with O(2) Symmetry.- §0. Introduction.- §1. The Action of O(2) × S1.- §2.
Invariant Theory for O(2) × S1.- §3. The Branching Equations.- §4. Amplitude
Equations, D4 Symmetry, and Stability.- §5. Hopf Bifurcation with O(n)
Symmetry.- §6. Bifurcation with D4 Symmetry.- §7. The Bifurcation Diagrams.-
§8. Rotating Waves and SO(2) or Zn
Symmetry.- XVIII Further Examples of Hopf Bifurcation with Symmetry.- §0.
Introduction.- §1. The Action of Dn × S1.- §2. Invariant Theory for Dn × S1.-
§3. Branching and Stability for Dn.- §4. Oscillations of Identical Cells
Coupled in a Ring.- §5. Hopf Bifurcation with O(3) Symmetry.- §6. Hopf
Bifurcation on the Hexagonal Lattice.- XIX Mode Interactions.- §0.
Introduction.- §
1. Hopf/Steady-State Interaction.- §2. Bifurcation Problems
with Z2 Symmetry.- §3. Bifurcation Diagrams with Z2 Symmetry.- §4. Hopf/Hopf
Interaction.- XX Mode Interactions with O(2) Symmetry.- §0. Introduction.-
§l.Steady-State Mode Interaction.- §2. Hopf/Steady-State Mode Interaction.-
§3. Hopf/Hopf Mode Interaction.- Case Study 6 The Taylor-Couette System.-
§0. Introduction.- §1. Detailed Overview.- §2. The Bifurcation Theory
Analysis.- §3. Finite Length Effects.