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Field Theory of Non-Equilibrium Systems 2nd Revised edition [Hardback]

4.50/5 (2 ratings by Goodreads)
(University of Minnesota)
  • Formāts: Hardback, 500 pages, height x width x depth: 250x175x34 mm, weight: 1070 g, Worked examples or Exercises
  • Izdošanas datums: 05-Jan-2023
  • Izdevniecība: Cambridge University Press
  • ISBN-10: 1108488250
  • ISBN-13: 9781108488259
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  • Hardback
  • Cena: 97,63 €
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Field Theory of Non-Equilibrium Systems 2nd Revised editionPalielināt
  • Formāts: Hardback, 500 pages, height x width x depth: 250x175x34 mm, weight: 1070 g, Worked examples or Exercises
  • Izdošanas datums: 05-Jan-2023
  • Izdevniecība: Cambridge University Press
  • ISBN-10: 1108488250
  • ISBN-13: 9781108488259
Citas grāmatas par šo tēmu:
Permanent link: https://www.kriso.lv/db/9781108488259.html
Keywords:
The physics of non-equilibrium many-body systems is a rapidly expanding area of theoretical physics. Traditionally employed in laser physics and superconducting kinetics, these techniques have more recently found applications in the dynamics of cold atomic gases, mesoscopic and nano-mechanical systems, and quantum computation. This book provides a detailed presentation of modern non-equilibrium field-theoretical methods, applied to examples ranging from biophysics to the kinetics of superfluids and superconductors. A highly pedagogical and self-contained approach is adopted within the text, making it ideal as a reference for graduate students and researchers in condensed matter physics. In this Second Edition, the text has been substantially updated to include recent developments in the field such as driven-dissipative quantum systems, kinetics of fermions with Berry curvature, and Floquet kinetics of periodically driven systems, among many other important new topics. Problems have been added throughout, structured as compact guided research projects that encourage independent exploration.

This book provides a detailed presentation of modern non-equilibrium field-theoretical methods, applied to examples ranging from biophysics to the kinetics of superfluids and superconductors. Suitable for graduate students and researchers in condensed matter physics, this new edition includes updated content and problems throughout.

Recenzijas

Praise for the first edition 'Field Theory of Non-Equilibrium Systems, written by theoretical condensed-matter physicist Alex Kamenev, is a lively pedagogical exposition of the Keldysh technique based on functional integration It is meant for advanced graduate students and professionals who have not had prior exposure to the technique but would like to learn it. Experts in the field may also enjoy the diversity of the subjects covered and the clarity with which they are presented. Thanks to those features, Field Theory of Non-Equilibrium Systems is a welcome introduction to the field and could well become a classic.' Vojkan Jaksic, Physics Today

Papildus informācija

A detailed treatment of the modern functional approach to non-equilibrium field-theoretical methods, now in its Second Edition.
1. Introduction; Part I. Systems with Few Degrees of Freedom:
2. Bosons;
3. Single-particle quantum mechanics;
4. Classical stochastic systems;
5.
Driven-dissipative systems; Part II. Bosonic and Classical Fields:
6. Bosonic
fields;
7. Dynamics of collisionless plasma;
8. Kinetics of Bose condensates;
9. Dynamics of phase transitions; Part III. Fermions:
10. Fermions;
11.
Kinetic theory and hydrodynamics;
12. Aspects of kinetic theory;
13. Quantum
transport; Part IV. Disordered Metals and Superconductors:
14. Disordered
fermionic systems;
15. Mesoscopic effects;
16. Electronelectron interactions
in disordered metals;
17. Dynamics of disordered superconductors;
18.
Electronphonon interactions; References; Index.
Alex Kamenev is a Professor at the William I. Fine Theoretical Physics Institute (FTPI) and at the School of Physics and Astronomy, University of Minnesota. His main areas of research include mesoscopic physics, low-dimensional and correlated fermionic and bosonic models, topological systems and quantum computing. He is a Fellow of the American Physical Society.