Book contents
- Frontmatter
- Contents
- Preface
- Acknowledgments
- Part I Introduction
- Part II Quantum Ising and Rotor Models
- Part III Other Models
- 10 Boson Hubbard Model
- 11 Dilute Fermi and Bose Gases
- 12 Phase Transitions of Fermi Liquids
- 13 Heisenberg Spins: Ferromagnets and Antiferromagnets
- 14 Spin Chains: Bosonization
- 15 Magnetic Ordering Transitions of Disordered Systems
- 16 Quantum Spin Glasses
- References
- Index
15 - Magnetic Ordering Transitions of Disordered Systems
Published online by Cambridge University Press: 05 August 2012
- Frontmatter
- Contents
- Preface
- Acknowledgments
- Part I Introduction
- Part II Quantum Ising and Rotor Models
- Part III Other Models
- 10 Boson Hubbard Model
- 11 Dilute Fermi and Bose Gases
- 12 Phase Transitions of Fermi Liquids
- 13 Heisenberg Spins: Ferromagnets and Antiferromagnets
- 14 Spin Chains: Bosonization
- 15 Magnetic Ordering Transitions of Disordered Systems
- 16 Quantum Spin Glasses
- References
- Index
Summary
This chapter has been co-authored with T. Senthil, and adapted from the Ph.D. thesis of T. Senthil, submitted to Yale University (1997, unpublished).
The last two chapters of this book will move beyond the study of regular Hamiltonians that have the full translational symmetry of an underlying crystalline lattice and consider the physically important case of disordered systems described by Hamiltonians with couplings that vary from point to point in space. By the standards of the regular systems we have already discussed, the quantum phase transitions of disordered systems are very poorly understood, and only a few well-established results are available. A large amount of theoretical effort has been expended toward unraveling the complicated phenomena that occur, and they remain active topics of current research. The aims of our discussion here will therefore be rather limited: We will highlight some important features that are qualitatively different from those of nondisordered systems, make general remarks about insights that can be drawn from our understanding of the finite-T crossovers in Part II, and discuss the properties of some simple solvable models.
In keeping with the general strategy of this book, we will introduce some basic concepts by studying the effects of disorder on the magnetic ordering transitions of quantum Ising/rotor models studied in Part II; we will also make some remarks in Section 15.3.1 on the effects of disorder on the ordering transitions of Fermi liquids considered in Chapter 12.
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- Quantum Phase Transitions , pp. 298 - 319Publisher: Cambridge University PressPrint publication year: 2000