Landolt-Börnstein - Group III Condensed Matter
Volume 24B 1994

Physics of Solid Surfaces · Electronic and Vibrational Properties

Editors: G. Chiarotti
ISBN: 978-3-540-56070-8 (Print) 978-3-540-47399-2 (Online)
DOI: 10.1007/b47750

Table of contents (79 documents)

  1. Online Document 1

    1.1 Motivations for a Landolt-Börnstein volume on surface physics

    G. Chiarotti

  2. Online Document 2

    1.2 Outline of the volume

    G. Chiarotti

  3. Online Document 3

    1.3 How to consult the volume

    G. Chiarotti

  4. Online Document 4

    1.4 List of frequently used symbols and abbreviations

    G. Chiarotti

  5. Online Document 5

    1.5 Conversion tables

    G. Chiarotti

  6. Online Document 6

    1.6 Crystal structures and bulk lattice parameters of materials quoted in the volume

    G. Chiarotti

  7. Online Document 7

    1.7 References for 1

    G. Chiarotti

  8. Online Document 8

    3.1.1.2 The jellium model

    K. Jakobi

  9. Online Document 9

    3.1.1.4 Image states

    K. Jakobi

  10. Online Document 10

    3.1.1.5 Surface Fermi-surfaces

    K. Jakobi

  11. Online Document 11

    3.1.1.7 Experimental methods

    K. Jakobi

  12. Online Document 12

    3.1.2.1 Arrangement of the data

    K. Jakobi

  13. Online Document 13

    3.1.2.2 Data on the jellium model

    K. Jakobi

  14. Online Document 14

    3.1.2.3.1 Theoretical studies on image states

    K. Jakobi

  15. Online Document 15

    3.1.2.3.2 Comparative studies of image states and surface states

    K. Jakobi

  16. Online Document 16

    3.1.2.4 Work function data

    K. Jakobi

  17. Online Document 17

    3.1.2.5 Surface core-level shift data

    K. Jakobi

  18. Online Document 18

    3.1.2.5.1 SCLS - Theory

    K. Jakobi

  19. Online Document 19

    3.1.2.5.2 SCLS - Experimental results

    K. Jakobi

  20. Online Document 20

    3.1.2.6 Group IA (alkali metals): Li, Na, K, Rb, Cs

    K. Jakobi

  21. Online Document 21

    3.1.2.7 Group IIA (alkaline earth metals): Be, Mg, Ca, Sr, Ba,

    K. Jakobi

  22. Online Document 22

    Figs. 88 - 115, Table 30

    K. Jakobi

  23. Online Document 23

    Figs. 116 - 153, Table 31

    K. Jakobi

  24. Online Document 24

    Figs. 154 - 167, Tables 32 - 45

    K. Jakobi

  25. Online Document 25

    Figs. 168 - 194, Tables 46 - 47

    K. Jakobi

  26. Online Document 26

    Figs. 195 - 212, Tables 48 - 54

    K. Jakobi

  27. Online Document 27

    3.1.2.9 Group IIB: Zn, Cd

    K. Jakobi

  28. Online Document 28

    Electronic and Vibrational Properties · Figs. 217 - 231

    K. Jakobi

  29. Online Document 29

    Figs. 232 - 252, Table 55

    K. Jakobi

  30. Online Document 30

    3.1.2.11 Group IVA: Pb, and Group VA: Bi

    K. Jakobi

  31. Online Document 31

    Electronic and Vibrational Properties · Figs. 259 - 278

    K. Jakobi

  32. Online Document 32

    Figs. 279 - 293, Table 56

    K. Jakobi

  33. Online Document 33

    Electronic and Vibrational Properties · Figs. 294 - 313

    K. Jakobi

  34. Online Document 34

    Figs. 314 - 333, Tables 57 - 59

    K. Jakobi

  35. Online Document 35

    Electronic and Vibrational Properties · Figs. 334 - 356

    K. Jakobi

  36. Online Document 36

    Electronic and Vibrational Properties · Figs. 357 - 377

    K. Jakobi

  37. Online Document 37

    Figs. 378 - 394, Tables 60 - 61

    K. Jakobi

  38. Online Document 38

    Electronic and Vibrational Properties · Figs. 395 - 414

    K. Jakobi

  39. Online Document 39

    Electronic and Vibrational Properties · Figs. 415 - 436

    K. Jakobi

  40. Online Document 40

    Electronic and Vibrational Properties · Figs. 437 - 453

    K. Jakobi

  41. Online Document 41

    3.1.2.15 Lanthanides (4f) (rare-earth metals): Ce, Sm, Gd, Tb, Dy, Ho, Yb

    K. Jakobi

  42. Online Document 42

    3.1.2.16 Actinides (5f): Th, Pu, Am

    K. Jakobi

  43. Online Document 43

    3.1.3 References for 3.1

    K. Jakobi

  44. Online Document 44

    3.2.1.2 Experimental methods

    C. Calandra, F. Manghi

  45. Online Document 45

    Electronic and Vibrational Properties · 3.2.1.3 Theory

    C. Calandra, F. Manghi

  46. Online Document 46

    Electronic and Vibrational Properties · Figs. 9 - 41

    C. Calandra, F. Manghi

  47. Online Document 47

    Electronic and Vibrational Properties · Figs. 42 - 71

    C. Calandra, F. Manghi

  48. Online Document 48

    Figs. 72 - 101, Table 1

    C. Calandra, F. Manghi

  49. Online Document 49

    Electronic and Vibrational Properties · Figs. 102 - 128

    C. Calandra, F. Manghi

  50. Online Document 50

    3.2.2.4 GaAs polar surfaces

    C. Calandra, F. Manghi

  51. Online Document 51

    3.2.3 References for 3.2

    C. Calandra, F. Manghi

  52. Online Document 52

    4.1.1.2.1 Isotropic media

    R. F. Wallis, S. Y. Tong

  53. Online Document 53

    4.1.1.2.2 Anisotropic media

    R. F. Wallis, S. Y. Tong

  54. Online Document 54

    4.1.1.3.1 Lattice vectors, reciprocal lattice vectors

    R. F. Wallis, S. Y. Tong

  55. Online Document 55

    4.1.1.3.2 Dynamical matrix and normal modes of vibration

    R. F. Wallis, S. Y. Tong

  56. Online Document 56

    4.1.1.3.4 General remarques about surface force constants and surface modes of vibration

    R. F. Wallis, S. Y. Tong

  57. Online Document 57

    4.1.1.3.5.2 Semiconductors (covalent bonding)

    R. F. Wallis, S. Y. Tong

  58. Online Document 58

    4.1.1.4.1 Inelastic helium atom scattering

    R. F. Wallis, S. Y. Tong

  59. Online Document 59

    4.1.1.6 Theoretical models

    R. F. Wallis, S. Y. Tong

  60. Online Document 60

    Electronic and Vibrational Properties · Figs. 2 - 26

    R. F. Wallis, S. Y. Tong

  61. Online Document 61

    Electronic and Vibrational Properties · Figs. 27 - 45

    R. F. Wallis, S. Y. Tong

  62. Online Document 62

    4.1.3 References for 4.1

    R. F. Wallis, S. Y. Tong

  63. Online Document 63

    4.2.1.2.1 Two isotropic media

    A. A. Maradudin

  64. Online Document 64

    4.2.1.2.2 An anisotropic medium in contact with an isotropic medium

    A. A. Maradudin

  65. Online Document 65

    4.2.1.2.3 Surface polaritons on magnetic media

    A. A. Maradudin

  66. Online Document 66

    4.2.1.3 Experimental determinations of surface polariton dispersion curves

    A. A. Maradudin

  67. Online Document 67

    4.2.2.1 Two isotropic media

    A. A. Maradudin

  68. Online Document 68

    4.2.2.2 A uniaxial crystal in contact with an isotropic medium

    A. A. Maradudin

  69. Online Document 69

    4.2.2.3 A biaxial crystal in contact with an isotropic medium

    A. A. Maradudin

  70. Online Document 70

    4.2.2.4 Surface polaritons in a magnetic field

    A. A. Maradudin

  71. Online Document 71

    4.2.2.5 An organic crystal in contact with an isotropic medium

    A. A. Maradudin

  72. Online Document 72

    4.2.3 References for 4.2

    A. A. Maradudin

  73. Online Document 73

    5.1.2 Methods and definitions

    U. Gradmann

  74. Online Document 74

    5.2.1 Surface magnetization at fixed temperatures

    U. Gradmann

  75. Online Document 75

    5.2.2 Magnetic hyperfine fields near surfaces at fixed temperatures

    U. Gradmann

  76. Online Document 76

    5.2.3.1 Surface magnetization at low temperatures

    U. Gradmann

  77. Online Document 77

    5.2.3.2 Critical behavior of surface magnetization; live layers

    U. Gradmann

  78. Online Document 78

    5.2.4 Magnetic surface anisotropies

    U. Gradmann

  79. Online Document 79

    5.3 References for 5

    U. Gradmann