Book contents
- Frontmatter
- Contents
- PREFACE
- NOTATION
- 1 HISTORICAL INTRODUCTION
- 2 RELATIVISTIC QUANTUM MECHANICS
- 3 SCATTERING THEORY
- 4 THE CLUSTER DECOMPOSITION PRINCIPLE
- 5 QUANTUM FIELDS AND ANTIPARTICLES
- 6 THE FEYNMAN RULES
- 7 THE CANONICAL FORMALISM
- 8 ELECTRODYNAMICS
- 9 PATH-INTEGRAL METHODS
- 10 NON-PERTURBATIVE METHODS
- 11 ONE-LOOP RADIATIVE CORRECTIONS IN QUANTUM ELECTRODYNAMICS
- 12 GENERAL RENORMALIZATION THEORY
- 13 INFRARED EFFECTS
- 14 BOUND STATES IN EXTERNAL FIELDS
- AUTHOR INDEX
- SUBJECT INDEX
1 - HISTORICAL INTRODUCTION
Published online by Cambridge University Press: 05 May 2013
- Frontmatter
- Contents
- PREFACE
- NOTATION
- 1 HISTORICAL INTRODUCTION
- 2 RELATIVISTIC QUANTUM MECHANICS
- 3 SCATTERING THEORY
- 4 THE CLUSTER DECOMPOSITION PRINCIPLE
- 5 QUANTUM FIELDS AND ANTIPARTICLES
- 6 THE FEYNMAN RULES
- 7 THE CANONICAL FORMALISM
- 8 ELECTRODYNAMICS
- 9 PATH-INTEGRAL METHODS
- 10 NON-PERTURBATIVE METHODS
- 11 ONE-LOOP RADIATIVE CORRECTIONS IN QUANTUM ELECTRODYNAMICS
- 12 GENERAL RENORMALIZATION THEORY
- 13 INFRARED EFFECTS
- 14 BOUND STATES IN EXTERNAL FIELDS
- AUTHOR INDEX
- SUBJECT INDEX
Summary
Our immersion in the present state of physics makes it hard for us to understand the difficulties of physicists even a few years ago, or to profit from their experience. At the same time, a knowledge of our history is a mixed blessing — it can stand in the way of the logical reconstruction of physical theory that seems to be continually necessary.
I have tried in this book to present the quantum theory of fields in a logical manner, emphasizing the deductive trail that ascends from the physical principles of special relativity and quantum mechanics. This approach necessarily draws me away from the order in which the subject in fact developed. To take one example, it is historically correct that quantum field theory grew in part out of a study of relativistic wave equations, including the Maxwell, Klein–Gordon, and Dirac equations. For this reason it is natural that courses and treatises on quantum field theory introduce these wave equations early, and give them great weight. Nevertheless, it has long seemed to me that a much better starting point is Wigner's definition of particles as representations of the inhomogeneous Lorentz group, even though this work was not published until 1939 and did not have a great impact for many years after. In this book we start with particles and get to the wave equations later.
This is not to say that particles are necessarily more fundamental than fields. For many years after 1950 it was generally assumed that the laws of nature take the form of a quantum theory of fields.
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- Chapter
- Information
- The Quantum Theory of Fields , pp. 1 - 48Publisher: Cambridge University PressPrint publication year: 1995