Landolt-Börnstein - Group III Condensed Matter
Volume 27E 1991

Magnetic Properties of Non-Metallic Inorganic Compounds Based on Transition Elements · Garnets

Editors: H.P.J. Wijn
ISBN: 978-3-540-53963-6 (Print) 978-3-540-46487-7 (Online)
DOI: 10.1007/b43782

Table of contents (74 documents)

  1. Online Document 1

    4.1.1.2 List of frequently used symbols and abbreviations

    P. Novák

  2. Online Document 2

    4.1.2.1.1 Saturation magnetization and Curie temperature

    P. Novák

  3. Online Document 3

    4.1.2.1.2 Molecular-field- and exchange constants

    P. Novák

  4. Online Document 4

    4.1.2.1.3 Magnetic moments of the rare earth ions

    P. Novák

  5. Online Document 5

    4.1.2.2 Magnetic phase transitions

    P. Novák

  6. Online Document 6

    4.1.2.2.1 Spontaneous spin-reorientational transitions

    P. Novák

  7. Online Document 7

    4.1.2.2.2 Field induced transitions

    P. Novák

  8. Online Document 8

    4.1.2.3.1 Cubic anisotropy

    P. Novák

  9. Online Document 9

    4.1.2.3.2 Non-cubic anisotropy

    P. Novák

  10. Online Document 10

    4.1.2.4.1 Resonance field

    P. Novák

  11. Online Document 11

    4.1.2.4.2 FMR line width

    P. Novák

  12. Online Document 12

    4.1.2.4.3 g-factor

    P. Novák

  13. Online Document 13

    4.1.2.5.1 Spin waves and magnetostatic modes

    P. Novák

  14. Online Document 14

    4.1.2.5.2 Non-linear effects and relaxation

    P. Novák

  15. Online Document 15

    4.1.2.6 Nuclear magnetic resonance (NMR)

    P. Novák

  16. Online Document 16

    4.1.2.7 Mössbauer spectroscopy

    P. Novák

  17. Online Document 17

    4.1.2.8.1 Static properties

    P. Novák

  18. Online Document 18

    4.1.2.8.2 Dynamic properties

    P. Novák

  19. Online Document 19

    4.1.3.1 Magnetostriction

    P. Novák

  20. Online Document 20

    4.1.4 Elastic properties

    P. Novák

  21. Online Document 21

    4.1.5 Optical and magnetooptical properties

    P. Novák

  22. Online Document 22

    4.1.5.1.1 Absorption of light

    P. Novák

  23. Online Document 23

    4.1.5.1.2 Reflection of light

    P. Novák

  24. Online Document 24

    4.1.5.1.3 Refractive index

    P. Novák

  25. Online Document 25

    Figs. 177 - 201, Table 18

    P. Novák

  26. Online Document 26

    Figs. 202 - 215, Table 19

    P. Novák

  27. Online Document 27

    4.1.5.2.2 Magnetic circular dichroism (MCD)

    P. Novák

  28. Online Document 28

    4.1.5.2.3 Kerr effects

    P. Novák

  29. Online Document 29

    4.1.5.2.4 Magnetic linear birefringence (MLB) and nonmagnetic linear birefringence

    P. Novák

  30. Online Document 30

    4.1.5.2.5 Magnetic linear dichroism (MLD)

    P. Novák

  31. Online Document 31

    4.1.5.3 Photoinduced effects

    P. Novák

  32. Online Document 32

    4.1.6 Thermal properties

    P. Novák

  33. Online Document 33

    4.1.7.1 Electrical conductivity

    P. Novák

  34. Online Document 34

    4.1.7.2 Magnetoresistance and magnetoelectric effect

    P. Novák

  35. Online Document 35

    4.1.8 Crystal structure

    P. Novák

  36. Online Document 36

    4.1.9 References for 4.1

    P. Novák

  37. Online Document 37

    4.1.10 List of iron garnets in Vols. 4A, 4B, 12A and 27E

    P. Novák

  38. Online Document 38

    4.2.1.2 List of frequently used symbols and abbreviation

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  39. Online Document 39

    4.2.2.1 Rare earth garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  40. Online Document 40

    4.2.2.2 3d-ion garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  41. Online Document 41

    4.2.3 Magnetization and magnetic structure

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  42. Online Document 42

    4.2.3.1 Magnetic moments and magnetic anisotropies of terbium, dysprosium and holmium aluminum garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  43. Online Document 43

    4.2.3.2 Magnetic moments of rare earth gallium garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  44. Online Document 44

    4.2.3.3 Magnetic neutron scattering in dysprosium aluminum garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  45. Online Document 45

    4.2.3.4 Magnetic neutron scattering in terbium, holmium and dysprosium gallium garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  46. Online Document 46

    4.2.3.5 Magnetization and magnetic phase transitions in manganese germanium garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  47. Online Document 47

    4.2.3.6 Garnets with several 3d-ions

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  48. Online Document 48

    4.2.4.1 Electron paramagnetic resonance of paramagnetic metal ions in diamagnetic garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  49. Online Document 49

    4.2.4.2 Electron paramagnetic resonance of rare earth ions in diamagnetic garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  50. Online Document 50

    4.2.4.3 Electron paramagnetic resonance of impurities in paramagnetic garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  51. Online Document 51

    4.2.4.5 Antiferromagnetic resonance

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  52. Online Document 52

    4.2.5.1 Crystal-field parameters

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  53. Online Document 53

    4.2.5.2 Optical spectra and index of refraction

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  54. Online Document 54

    4.2.5.3 Information on colour centres

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  55. Online Document 55

    4.2.5.4 Further references for results from optical measurements

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  56. Online Document 56

    4.2.5.5 Magnetooptical properties

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  57. Online Document 57

    4.2.6 Mössbauer spectroscopy

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  58. Online Document 58

    4.2.7 Electron spin-lattice relaxation of paramagnetic ions in garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  59. Online Document 59

    4.2.8.1 Heat capacity

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  60. Online Document 60

    4.2.8.2 Derived thermodynamic functions

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  61. Online Document 61

    4.2.8.3 Debye temperature

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  62. Online Document 62

    4.2.8.4 Thermal expansion

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  63. Online Document 63

    4.2.8.5 Kapitza conductance

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  64. Online Document 64

    4.2.8.6 Thermal conductivity

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  65. Online Document 65

    4.2.8.7 Ultrasound attenuation

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  66. Online Document 66

    4.2.9.1 Elastic and photoelastic constants at room temperature

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  67. Online Document 67

    4.2.9.2 Temperature dependences

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  68. Online Document 68

    4.2.10.1 Magnetostriction of rare earth garnets

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  69. Online Document 69

    4.2.10.2 Magnetostriction of antiferromagnetic garnets with 3d-ions

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  70. Online Document 70

    4.2.11 Electrical properties

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  71. Online Document 71

    4.2.11.1 Electrical conductivity and thermoelectric power

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  72. Online Document 72

    4.2.11.2 Photoconductivity

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  73. Online Document 73

    4.2.12 References for 4.2

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov

  74. Online Document 74

    4.2.13 List of non-iron garnets in Vols. 4B, 12A and 27E

    Z. A. Kazei, N. P. Kolmakova, V. I. Sokolov