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5 Non-collinear magnetism & multiferroicity: the perovskite case

  • Eric Bousquet and Andrés Cano
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Multiferroics
This chapter is in the book Multiferroics

Abstract

The most important types of non-collinear magnetic orders that are realized in simple perovskite oxides are outlined in relation to multiferroicity. These orders are classified and rationalized in terms of a mimimal spin Hamiltonian, based on which the notion of spin-driven ferroelectricity is illustrated. These concepts find direct application in reference materials such as BiFeO3, GdFeO3 and TbMnO3 whose multiferroic properties are briefly reviewed.

Abstract

The most important types of non-collinear magnetic orders that are realized in simple perovskite oxides are outlined in relation to multiferroicity. These orders are classified and rationalized in terms of a mimimal spin Hamiltonian, based on which the notion of spin-driven ferroelectricity is illustrated. These concepts find direct application in reference materials such as BiFeO3, GdFeO3 and TbMnO3 whose multiferroic properties are briefly reviewed.

Chapters in this book

  1. Frontmatter I
  2. Preface V
  3. Contents VII
  4. List of Contributing Authors XIII
  5. 1 A short history of multiferroics 1
  6. 2 Spin dynamics, antiferrodistortion and magnetoelectric interaction in multiferroics. The case of BiFeO3 13
  7. 3 Hexagonal manganites: Strong coupling of ferroelectricity and magnetic orders 37
  8. 4 Spiral spin structures and skyrmions in multiferroics 89
  9. 5 Non-collinear magnetism & multiferroicity: the perovskite case 127
  10. 6 Ferroelectric polarization in multiferroics 159
  11. 7 Probing local order in multiferroics by transmission electron microscopy 193
  12. 8 Controlling of light with electromagnons 249
  13. 9 Dynamical magnetoelectric phenomena of skyrmions in multiferroics 271
  14. 10 Magneto-electric multiferroics: designing new materials from first-principles calculations 293
  15. 11 Domains and domain walls in multiferroics 335
  16. 12 Multiferroic heterostructures for spintronics 371
  17. Index 413
https://doi.org/10.1515/9783110582130-005

Chapters in this book

  1. Frontmatter I
  2. Preface V
  3. Contents VII
  4. List of Contributing Authors XIII
  5. 1 A short history of multiferroics 1
  6. 2 Spin dynamics, antiferrodistortion and magnetoelectric interaction in multiferroics. The case of BiFeO3 13
  7. 3 Hexagonal manganites: Strong coupling of ferroelectricity and magnetic orders 37
  8. 4 Spiral spin structures and skyrmions in multiferroics 89
  9. 5 Non-collinear magnetism & multiferroicity: the perovskite case 127
  10. 6 Ferroelectric polarization in multiferroics 159
  11. 7 Probing local order in multiferroics by transmission electron microscopy 193
  12. 8 Controlling of light with electromagnons 249
  13. 9 Dynamical magnetoelectric phenomena of skyrmions in multiferroics 271
  14. 10 Magneto-electric multiferroics: designing new materials from first-principles calculations 293
  15. 11 Domains and domain walls in multiferroics 335
  16. 12 Multiferroic heterostructures for spintronics 371
  17. Index 413
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