Book contents
- Frontmatter
- Dedication
- Contents
- Preface
- 1 Thermodynamics and Statistical Mechanics Review
- 2 The Ising Model in d = 0 and d = 1
- 3 Statistical to Quantum Mechanics
- 4 Quantum to Statistical Mechanics
- 5 The Feynman Path Integral
- 6 Coherent State Path Integrals for Spins, Bosons, and Fermions
- 7 The Two-Dimensional Ising Model
- 8 Exact Solution of the Two–Dimensional Ising Model
- 9 Majorana Fermions
- 10 Gauge Theories
- 11 The Renormalization Group
- 12 Critical Phenomena: The Puzzle and Resolution
- 13 Renormalization Group for the ϕ4 Model
- 14 Two Views of Renormalization
- 15 Renormalization Group for Non-Relativistic Fermions: I
- 16 Renormalization Group for Non-Relativistic Fermions: II
- 17 Bosonization I: The Fermion–Boson Dictionary
- 18 Bosonization II: Selected Applications
- 19 Duality and Triality
- 20 Techniques for the Quantum Hall Effect
- Index
Preface
Published online by Cambridge University Press: 24 October 2017
- Frontmatter
- Dedication
- Contents
- Preface
- 1 Thermodynamics and Statistical Mechanics Review
- 2 The Ising Model in d = 0 and d = 1
- 3 Statistical to Quantum Mechanics
- 4 Quantum to Statistical Mechanics
- 5 The Feynman Path Integral
- 6 Coherent State Path Integrals for Spins, Bosons, and Fermions
- 7 The Two-Dimensional Ising Model
- 8 Exact Solution of the Two–Dimensional Ising Model
- 9 Majorana Fermions
- 10 Gauge Theories
- 11 The Renormalization Group
- 12 Critical Phenomena: The Puzzle and Resolution
- 13 Renormalization Group for the ϕ4 Model
- 14 Two Views of Renormalization
- 15 Renormalization Group for Non-Relativistic Fermions: I
- 16 Renormalization Group for Non-Relativistic Fermions: II
- 17 Bosonization I: The Fermion–Boson Dictionary
- 18 Bosonization II: Selected Applications
- 19 Duality and Triality
- 20 Techniques for the Quantum Hall Effect
- Index
Summary
Condensed matter theory is a massive field to which no book or books can do full justice. Every chapter in this book is possible material for a book or books. So it is clearly neither my intention nor within my capabilities to give an overview of the entire subject. Instead I will focus on certain techniques that have served me well over the years and whose strengths and limitations I am familiar with.
My presentation is at a level of rigor I am accustomed to and at ease with. In any topic, say the renormalization group (RG) or bosonization, there are treatments that are more rigorous. How I deal with this depends on the topic. For example, in the RG I usually stop at one loop, which suffices to make the point, with exceptions like wave function renormalization where you need a minimum of two loops. For non-relativistic fermions I am not aware of anything new one gets by going to higher loops. I do not see much point in a scheme that is exact to all orders (just like the original problem) if in practice no real gain is made after one loop. In the case of bosonization I work in infinite volume from the beginning and pay scant attention to the behavior at infinity. I show many examples where this is adequate, but point to cases where it is not and suggest references. In any event I think the student should get acquainted with these more rigorous treatments after getting the hang of it from the treatment in this book. I make one exception in the case of the two-dimensional Ising model where I pay considerable attention to boundary conditions, without which one cannot properly understand how symmetry breaking occurs only in the thermodynamic limit.
This book has been a few years in the writing and as a result some of the topics may seem old-fashioned; on the other hand, they have stood the test of time.
Ideally the chapters should be read in sequence, but if that is not possible, the reader may have to go back to earlier chapters when encountering an unfamiliar notion.
I am grateful to the Aspen Center for Physics (funded by NSF Grant 1066293) and the Indian Institute of Technology, Madras for providing the facilities to write parts of this book.
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- Information
- Quantum Field Theory and Condensed MatterAn Introduction, pp. xiii - xivPublisher: Cambridge University PressPrint publication year: 2017