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Table of contents

  1. Front Matter
  2. Erich Eisenriegler
    Pages 1-24
  3. Andreas Pordt
    Pages 25-44
  4. Andreas Pordt
    Pages 45-67
  5. Bo Söderberg
    Pages 68-77
  6. Dietmar Ebert
    Pages 103-114
  7. Dietmar Ebert
    Pages 115-121
  8. Anders Irbäck
    Pages 143-154
  9. Bernd A. Berg, Ion-Olimpiu Stamatescu
    Pages 173-191
  10. Alan Chodos, Hisakazu Minakata
    Pages 231-239
  11. Siegmar Roth
    Pages 240-256
  12. Back Matter

About these proceedings

Introduction

The book is written for advanced graduate students. The topics have been selected to present methods and models that have applications in both particle physics and polymer physics. The lectures may serve as a guide through more recent research activities and illustrate the applicability of joint methods in different contexts. The book deals with analytic tools (e.g. random walk models, polymer expansion), numerical tools (e.g. Langevin dynamics), and common models (the three-dimensional Gross-Neveu-Model).

Keywords

Boson Elementary Particle Physics Field Theoretical Methods Mathematical and Computational Monte Carlo method Neural Networks Out-of-Equilibrium Particle Physics Polymer Physics Quantum Chromodynamics Thermodynamics hadron polymer

Bibliographic information