Skip to content

At the moment we can only deliver in the UK. Click here to visit Cambridge.org for international orders.

  • Bestsellers
  • Latest releases
  • Offers
  • Events

    Cart

    Your cart is empty

    Physics of Solitons

    Author(s): Thierry Dauxois , Michel Peyrard

    ISBN: 9780521143608
    Publication Date: 10 June 2010
    Pages: 436
    Format: Paperback
    Sale price£56.00 GBP

    Quantity

    Pickup available at Cambridge University Press Bookshop

    Usually ready in 24 hours

    Physics of Solitons

    Physics of Solitons

    Cambridge University Press Bookshop

    Pickup available, Usually ready in 24 hours

    1-2 Trinity Street
    Cambridge CB2 1SZ
    United Kingdom

    +441223333333

    🚚 Please note we can only ship within the UK.

    FREE delivery on books (excluding sale).

    Delivery for other items is £1.50 - £4.50, calculated at checkout.

    T&Cs apply.

    Free click & collect on all orders.

    Solitons are waves with exceptional stability properties which appear in many areas of physics. The basic properties of solitons are introduced here using examples from macroscopic physics (e.g. blood pressure pulses and fibre optical communications). The book then presents the main theoretical methods before discussing applications from solid state or atomic physics such as dislocations, excitations in spin chains, conducting polymers, ferroelectrics and Bose–Einstein condensates. Examples are also taken from biological physics and include energy transfer in proteins and DNA fluctuations. Throughout the book the authors emphasise a fresh approach to modelling nonlinearities in physics. Instead of a perturbative approach, nonlinearities are treated intrinsically and the analysis based on the soliton equations introduced in this book. Based on the authors' graduate course, this textbook gives an instructive view of the physics of solitons for students with a basic knowledge of general physics, and classical and quantum mechanics.

    Contents

    List of Portraits; Preface; Part I. Different Classes of Solitons: Introduction; 1. Nontopological solitons: the Korteweg-de Vries equation; 2. Topological soltitons: sine-Gordon equation; 3. Envelope solitons and nonlinear localisation: the nonlinear Schrödinger equation; 4. The modelling process: ion acoustic waves in a plasma; Part II. Mathematical Methods for the Study of Solitons: Introduction; 5. Linearisation around the soliton solution; 6. Collective coordinate method; 7. The inverse-scattering transform; Part III. Examples in Solid State and Atomic Physics: Introduction; 8. The Ferm–Pasta–Ulam problem; 9. A simple model for dislocations in crystals; 10. Ferroelectric domain walls; 11. Incommensurate phases; 12. Solitons in magnetic systems; 13. Solitons in Conducting polymers; 14. Solitons in Bose–Einstein condensates; Part IV. Nonlinear Excitations in Biological Molecules: Introduction; 15. Energy localisation and transfer in proteins; 16. Nonlinear dynamics and statistical physics of DNA; Conclusion: Physical solitons: do they exist?; Part V. Appendices: A. Derivation of the KdV equation for surface hydrodynamic waves; B. Mechanics of a continuous medium; C. Coherent states of an harmonic oscillator; References; Index.