Book contents
- Frontmatter
- Dedication
- Contents
- Introduction
- PART I Basics
- 1 Preliminaries
- 2 Basics of Non-relativistic Quantum Mechanics
- 3 Non-relativistic Quantum Fields
- 4 The Lorentz Group and the Poincaré Group
- 5 The Massive Scalar Free Field
- 6 Quantization
- 7 The Casimir Effect
- Part II Spin
- Part III Interactions
- Part IV Renormalization
- Part V Complements
- Solutions to Selected Exercises
- Reading Suggestions
- References
- Index
2 - Basics of Non-relativistic Quantum Mechanics
from PART I - Basics
Published online by Cambridge University Press: 22 February 2022
- Frontmatter
- Dedication
- Contents
- Introduction
- PART I Basics
- 1 Preliminaries
- 2 Basics of Non-relativistic Quantum Mechanics
- 3 Non-relativistic Quantum Fields
- 4 The Lorentz Group and the Poincaré Group
- 5 The Massive Scalar Free Field
- 6 Quantization
- 7 The Casimir Effect
- Part II Spin
- Part III Interactions
- Part IV Renormalization
- Part V Complements
- Solutions to Selected Exercises
- Reading Suggestions
- References
- Index
Summary
This chapter provides a self-contained introduction to the basic aspects of Quantum Mechanics, focusing on what is must for Quantum Field Theory. The notions of state space, unitary operators, self-adjoint operators, and projective representation are covered as well as Heisenberg’s uncertainty principle. A complete proof of Stone’s theorem is given, but the spectral theory is covered only at the heuristic level. We provide an introduction to Dirac’s formalism, which is almost universally used in physics literature. The time-evolution is described in both the Schrödinger and the Heisenberg picture. A complete treatment of the harmonic oscillator, providing an introduction to the fundamental idea of creation and annihilation operators concludes the chapter.
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- What Is a Quantum Field Theory? , pp. 21 - 72Publisher: Cambridge University PressPrint publication year: 2022