
Quantum phase transitions describe the violent rearrangement of electrons or atoms as they evolve from well defined excitations in one phase to a completely different set of excitations in another. The chapters in this book give insights into how a coherent metallic or superconducting state can be driven into an incoherent insulating state by increasing disorder, magnetic field, carrier concentration and inter-electron interactions. The problem necessarily involves many interacting particles and therein lies the challenge to develop a multi-faceted theory. Experiments probing microscopic structure, transport, charge and spin dynamics provide important clues. What sets this book apart is a strong dialog between experiment and theory that has the potential to solve some major issues in many-body physics. The ideas and methods developed here are bound to have repercussions in all spheres of physics.
This text investigates the mechanisms governing quantum phase transitions between metallic or superconducting states and insulating states in many-body systems. The authors, James M. Valles Jr., Nandini Trivedi, and Vladimir Dobrosavljevic, synthesize current theoretical frameworks and experimental data to address the complex behavior of electrons and atoms under varying conditions of disorder, magnetic fields, and inter-electron interactions. The work aims to bridge the gap between experimental observations and theoretical models in the field of many-body physics.
What You Will Find
Scope Limits
Experts recognize this volume as a specialized resource for researchers focusing on the intersection of experimental and theoretical condensed matter physics. Readers frequently note the high level of technical density required to engage with the presented many-body physics models.
Page Count:
672
Publication Date:
2012-01-01
Publisher:
OUP Oxford
ISBN-10:
0191642169
ISBN-13:
9780191642166
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