A Brief Introduction to Topology and Differential Geometry in Condensed Matter Physics

In the last years there have been great advances in the applications of topology and differential geometry to problems in condensed matter physics. Concepts drawn from topology and geometry have become essential to the understanding of several phenomena in the area. Physicists have been creative in producing models for actual physical phenomena which realize mathematically exotic concepts and new phases have been discovered in condensed matter in which topology plays a leading role. An important classification paradigm is the concept of topological order, where the state characterizing a system does not break any symmetry, but it defines a topological phase in the sense that certain fundamental properties change only when the system passes through a quantum phase transition.

The main purpose of this book is to provide a brief, self-contained introduction to some mathematical ideas and methods from differential geometry and topology, and to show a few applications in condensed matter. It conveys to physicists the basis for many mathematical concepts, avoiding the detailed formality of most textbooks.

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A Brief Introduction to Topology and Differential Geometry in Condensed Matter Physics

In the last years there have been great advances in the applications of topology and differential geometry to problems in condensed matter physics. Concepts drawn from topology and geometry have become essential to the understanding of several phenomena in the area. Physicists have been creative in producing models for actual physical phenomena which realize mathematically exotic concepts and new phases have been discovered in condensed matter in which topology plays a leading role. An important classification paradigm is the concept of topological order, where the state characterizing a system does not break any symmetry, but it defines a topological phase in the sense that certain fundamental properties change only when the system passes through a quantum phase transition.

The main purpose of this book is to provide a brief, self-contained introduction to some mathematical ideas and methods from differential geometry and topology, and to show a few applications in condensed matter. It conveys to physicists the basis for many mathematical concepts, avoiding the detailed formality of most textbooks.

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A Brief Introduction to Topology and Differential Geometry in Condensed Matter Physics

A Brief Introduction to Topology and Differential Geometry in Condensed Matter Physics

by Antonio Sergio Teixeira Pires
A Brief Introduction to Topology and Differential Geometry in Condensed Matter Physics

A Brief Introduction to Topology and Differential Geometry in Condensed Matter Physics

by Antonio Sergio Teixeira Pires

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Overview

In the last years there have been great advances in the applications of topology and differential geometry to problems in condensed matter physics. Concepts drawn from topology and geometry have become essential to the understanding of several phenomena in the area. Physicists have been creative in producing models for actual physical phenomena which realize mathematically exotic concepts and new phases have been discovered in condensed matter in which topology plays a leading role. An important classification paradigm is the concept of topological order, where the state characterizing a system does not break any symmetry, but it defines a topological phase in the sense that certain fundamental properties change only when the system passes through a quantum phase transition.

The main purpose of this book is to provide a brief, self-contained introduction to some mathematical ideas and methods from differential geometry and topology, and to show a few applications in condensed matter. It conveys to physicists the basis for many mathematical concepts, avoiding the detailed formality of most textbooks.


Product Details

ISBN-13: 9781643273716
Publisher: Morgan and Claypool Publishers
Publication date: 03/21/2019
Series: Iop Concise Physics
Pages: 170
Product dimensions: 7.00(w) x 10.00(h) x 0.00(d)

About the Author

Antonio Sergio Teixeira Pires is a Professor of Physics in the Physics Department at the Universidade Federal de Minas Gerais, Belo Horizonte, Brazil. He received his Ph. D. in Physics from University of California in Santa Barbara in 1976. He works in quantum field theory applied to condensed matter. He is a member of the Brazilian Academy of Science, was an Editor of the Brazilian Journal of Physics and a member of the Advisory Board of the Journal of Condensed Matter Physics. He is also the author of AdS/CFT Correspondence in Condensed Matter, which is another book in the Concise Physics series.

Table of Contents

Table of Contents: Preface / Acknowledgements / Author biography / 1. Path integral approach / 2. Topology and vector spaces / 3. Manifolds and fiber bundle / 4. Metric and curvature / 5. Dirac equation and gauge fields / 6. Berry connection and particle moving in a magnetic field / 7. Quantum Hall effect / 8. Topological insulators / 9. Magnetic models / Appendices
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