National Science Library of Georgia

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Thermal field theory / Michel Le Bellac.

By: Material type: TextTextSeries: Cambridge monographs on mathematical physicsPublisher: Cambridge : Cambridge University Press, 1996Description: 1 online resource (xiii, 256 pages) : digital, PDF file(s)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9780511721700 (ebook)
Subject(s): Additional physical formats: Print version: : No titleDDC classification:
  • 530.1/44 20
LOC classification:
  • QC174.17.P7 L4 1996
Online resources:
Contents:
1. Introduction -- 2. Quantum statistical mechanics -- 3. The scalar field at finite temperature -- 4. Simple applications of perturbation theory -- 5. Dirac and gauge fields at finite temperature -- 6. Collective excitations in a plasma -- 7. Hard thermal loops and resummation -- 8. Dynamical screening -- 9. Neutrino emission from stars -- 10. Infrared problems at finite temperature -- A Formulary -- B Operator formalism.
Summary: Now in paperback, this text introduces the theoretical framework for describing the quark-gluon plasma, an important new state of matter. The first part of this book is a self-contained introduction to relativistic thermal field theory. Topics include the path integral approach, the real and the imaginary time formalisms, fermion fields and gauge fields at finite temperature. Useful techniques such as the evaluation of frequency sums or the use of cutting rules are illustrated on various examples. The second part of the book is devoted to recent developments, giving a detailed account of collective excitations (bosonic and fermionic), and showing how they give rise to energy scales which imply a reorganization of perturbation theory. The relation with kinetic theory is also explained. Applications to processes which occur in heavy ion collisions and in astrophysics are worked out in detail. Each chapter ends with exercises and a guide to the literature.
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Title from publisher's bibliographic system (viewed on 05 Oct 2015).

1. Introduction -- 2. Quantum statistical mechanics -- 3. The scalar field at finite temperature -- 4. Simple applications of perturbation theory -- 5. Dirac and gauge fields at finite temperature -- 6. Collective excitations in a plasma -- 7. Hard thermal loops and resummation -- 8. Dynamical screening -- 9. Neutrino emission from stars -- 10. Infrared problems at finite temperature -- A Formulary -- B Operator formalism.

Now in paperback, this text introduces the theoretical framework for describing the quark-gluon plasma, an important new state of matter. The first part of this book is a self-contained introduction to relativistic thermal field theory. Topics include the path integral approach, the real and the imaginary time formalisms, fermion fields and gauge fields at finite temperature. Useful techniques such as the evaluation of frequency sums or the use of cutting rules are illustrated on various examples. The second part of the book is devoted to recent developments, giving a detailed account of collective excitations (bosonic and fermionic), and showing how they give rise to energy scales which imply a reorganization of perturbation theory. The relation with kinetic theory is also explained. Applications to processes which occur in heavy ion collisions and in astrophysics are worked out in detail. Each chapter ends with exercises and a guide to the literature.

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