Electronic structure : basic theory and practical methods

Bibliographic Information

Electronic structure : basic theory and practical methods

Richard M. Martin

Cambridge University Press, 2020

Second edition

  • : hardback

Available at  / 17 libraries

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Note

Includes bibliographical references and index

Summary: "The study of electronic structure of materials is at a momentous stage, with new computational methods and advances in basic theory. Many properties of materials can be determined from the fundamental equations, and electronic structure theory is now an integral part of research in physics, chemistry, materials science and other fields. This book provides a unified exposition of the theory and methods, with emphasis on understanding each essential component. New in the second edition are recent advances in density functional theory, an introduction to Berry phases and topological insulators explained in terms of elementary band theory, and many new examples of applications. Graduate students and research scientists will find careful explanations with references to original papers, pertinent reviews, and accessible books. Each chapter includes a short list of the most relevant works and exercises that reveal salient points and challenge the reader"-- Provided by publisher

Description and Table of Contents

Description

The study of electronic structure of materials is at a momentous stage, with new computational methods and advances in basic theory. Many properties of materials can be determined from the fundamental equations, and electronic structure theory is now an integral part of research in physics, chemistry, materials science and other fields. This book provides a unified exposition of the theory and methods, with emphasis on understanding each essential component. New in the second edition are recent advances in density functional theory, an introduction to Berry phases and topological insulators explained in terms of elementary band theory, and many new examples of applications. Graduate students and research scientists will find careful explanations with references to original papers, pertinent reviews, and accessible books. Each chapter includes a short list of the most relevant works and exercises that reveal salient points and challenge the reader.

Table of Contents

  • Preface
  • Acknowledgments
  • Notation
  • Part I. Overview and background topics: 1. Introduction
  • 2. Overview
  • 3. Theoretical background
  • 4. Periodic solids and electron bands
  • 5. Uniform electron gas and sp-bonded metals
  • Part II. Density functional theory: 6. Density functional theory: foundations
  • 7. The Kohn-Sham auxiliary system
  • 8. Functionals for exchange and correlation I
  • 9. Functionals for exchange and correlation II
  • Part III. Important preliminaries on atoms: 10. Electronic structure of atoms
  • 11. Pseudopotentials
  • Part IV. Determination of electronic structure: the basic methods: 12. Plane waves and grids: basics
  • 13. Plane waves and real space methods: full calculations
  • 14. Localized orbitals: tight-binding
  • 15. Localized orbitals: full calculations
  • 16. Augmented functions: APW, KKR, MTO
  • 17. Augmented functions: linear methods
  • 18. Locality and linear scaling O(N) methods
  • Part V. From Electronic Structure to Properties of Matter: 19. Quantum molecular dynamics (QMD)
  • 20. Response functions: phonons, magnons, . . .
  • 21. Excitation spectra and optical properties
  • 22. Surfaces, interfaces, and lower dimensional systems
  • 23. Wannier functions
  • 24. Polarization, localization, and Berry phases
  • Part VI. Electronic Structure and Topology: 25. Topology of the electronic structure of a crystal: introduction
  • 26. Two band models: Berry phase, winding and topology
  • 27. Topological insulators I: Two dimensions
  • 28. Topological insulators II: Three dimensions
  • Part VII. APPENDICES: A. Functional equations
  • B. LSDA and GGA functionals
  • C. Adiabatic approximation
  • D. Perturbation Theory, response functions and Green's functions
  • E. Dielectric functions and optical properties
  • F. Coulomb interactions in extended systems
  • G. Stress from electronic structure
  • H. Energy and stress densities
  • I. Alternative force expressions
  • J. Scattering and phase shifts
  • K. Useful relations and formulas
  • L. Numerical methods
  • M. Iterative methods in electronic structure
  • N. Two-center matrix elements: expressions for arbitrary angular momentum l
  • O. Dirac equation and spin-orbit interaction
  • P. Berry phase, curvature and Chern numbers
  • Q. Quantum Hall effect and edge conductivity
  • R. Codes for electronic structure calculations for solids
  • References
  • Index.

by "Nielsen BookData"

Details

  • NCID
    BC00346284
  • ISBN
    • 9781108429900
  • LCCN
    2019060148
  • Country Code
    uk
  • Title Language Code
    eng
  • Text Language Code
    eng
  • Place of Publication
    Cambridge
  • Pages/Volumes
    xxviii, 762 pages
  • Size
    25 cm
  • Classification
  • Subject Headings
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