Magnetoelectricity in Composites

Magnetoelectricity in Composites

by Mirza Bichurin, Dwight Viehland
Released November 2011
Publisher(s): Jenny Stanford Publishing
ISBN: 9789814267830

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Book description

This book brings together numerous contributions to the field of magnetoelectric (ME) composites that have been reported since the beginning of the new millennium. It presents assimilation of facts into the established knowledge, so that the potential of the field can be made transparent to the new generations of talent to advance the subject matte

Table of contents

  1. Front Cover
  2. Contents
  3. Preface
  4. 1. Magnetoelectric Interaction in Magnetically Ordered Materials (Review) (1/5)
  5. 1. Magnetoelectric Interaction in Magnetically Ordered Materials (Review) (2/5)
  6. 1. Magnetoelectric Interaction in Magnetically Ordered Materials (Review) (3/5)
  7. 1. Magnetoelectric Interaction in Magnetically Ordered Materials (Review) (4/5)
  8. 1. Magnetoelectric Interaction in Magnetically Ordered Materials (Review) (5/5)
  9. 2. Effective Medium Approach: Low-Frequency Range (1/14)
  10. 2. Effective Medium Approach: Low-Frequency Range (2/14)
  11. 2. Effective Medium Approach: Low-Frequency Range (3/14)
  12. 2. Effective Medium Approach: Low-Frequency Range (4/14)
  13. 2. Effective Medium Approach: Low-Frequency Range (5/14)
  14. 2. Effective Medium Approach: Low-Frequency Range (6/14)
  15. 2. Effective Medium Approach: Low-Frequency Range (7/14)
  16. 2. Effective Medium Approach: Low-Frequency Range (8/14)
  17. 2. Effective Medium Approach: Low-Frequency Range (9/14)
  18. 2. Effective Medium Approach: Low-Frequency Range (10/14)
  19. 2. Effective Medium Approach: Low-Frequency Range (11/14)
  20. 2. Effective Medium Approach: Low-Frequency Range (12/14)
  21. 2. Effective Medium Approach: Low-Frequency Range (13/14)
  22. 2. Effective Medium Approach: Low-Frequency Range (14/14)
  23. 3. Magnetoelectric Effect in the Electromechanical Resonance Range (1/3)
  24. 3. Magnetoelectric Effect in the Electromechanical Resonance Range (2/3)
  25. 3. Magnetoelectric Effect in the Electromechanical Resonance Range (3/3)
  26. 4. Magnetoelectric Effect and Green's Function Method (1/6)
  27. 4. Magnetoelectric Effect and Green's Function Method (2/6)
  28. 4. Magnetoelectric Effect and Green's Function Method (3/6)
  29. 4. Magnetoelectric Effect and Green's Function Method (4/6)
  30. 4. Magnetoelectric Effect and Green's Function Method (5/6)
  31. 4. Magnetoelectric Effect and Green's Function Method (6/6)
  32. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (1/10)
  33. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (2/10)
  34. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (3/10)
  35. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (4/10)
  36. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (5/10)
  37. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (6/10)
  38. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (7/10)
  39. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (8/10)
  40. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (9/10)
  41. 5. Equivalent Circuit Method and Magnetoelectric Low-Frequency Devices (10/10)
  42. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (1/10)
  43. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (2/10)
  44. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (3/10)
  45. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (4/10)
  46. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (5/10)
  47. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (6/10)
  48. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (7/10)
  49. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (8/10)
  50. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (9/10)
  51. 6. Ferrite–Piezoelectric Composites at Ferromagnetic Resonance Range and Magnetoelectric Microwave Devices (10/10)
  52. 7. Magnetoelectric Effects in Nanocomposites (1/9)
  53. 7. Magnetoelectric Effects in Nanocomposites (2/9)
  54. 7. Magnetoelectric Effects in Nanocomposites (3/9)
  55. 7. Magnetoelectric Effects in Nanocomposites (4/9)
  56. 7. Magnetoelectric Effects in Nanocomposites (5/9)
  57. 7. Magnetoelectric Effects in Nanocomposites (6/9)
  58. 7. Magnetoelectric Effects in Nanocomposites (7/9)
  59. 7. Magnetoelectric Effects in Nanocomposites (8/9)
  60. 7. Magnetoelectric Effects in Nanocomposites (9/9)

Product information

  • Title: Magnetoelectricity in Composites
  • Author(s): Mirza Bichurin, Dwight Viehland
  • Release date: November 2011
  • Publisher(s): Jenny Stanford Publishing
  • ISBN: 9789814267830