Landolt-Börnstein - Group III Condensed Matter
Volume 45A 2015

Physics of Solid Surfaces · Physics of Solid Surfaces

Subvolume A

Editors: G. Chiarotti, P. Chiaradia
ISBN: 978-3-662-47735-9 (Print) 978-3-662-47736-6 (Online)
DOI: 10.1007/978-3-662-47736-6

Table of contents (181 documents)

  1. Online Document 1

    1 General introduction to the Volume “Physics of Solid Surfaces”, LB III/45A

    G. Chiarotti, P. Chiaradia

  2. Online Document 2

    2.1 Introduction to scanning tunneling microscopy of metals and semiconductor

    R. M. Feenstra, S. W. Hla

  3. Online Document 3

    Physics of Solid Surfaces · 2.2 Metals

    R. M. Feenstra, S. W. Hla

  4. Online Document 4

    Physics of Solid Surfaces · 2.2.1 Ag, Silver

    R. M. Feenstra, S. W. Hla

  5. Online Document 5

    Physics of Solid Surfaces · 2.2.2 Au, Gold

    R. M. Feenstra, S. W. Hla

  6. Online Document 6

    2.2.3 Cr, Chromium

    R. M. Feenstra, S. W. Hla

  7. Online Document 7

    Physics of Solid Surfaces · 2.2.4 Cu, Copper

    R. M. Feenstra, S. W. Hla

  8. Online Document 8

    Physics of Solid Surfaces · 2.2.5 Fe, Iron

    R. M. Feenstra, S. W. Hla

  9. Online Document 9

    2.2.6 Ir, Iridium

    R. M. Feenstra, S. W. Hla

  10. Online Document 10

    2.2.7 Mo, Molybdenum

    R. M. Feenstra, S. W. Hla

  11. Online Document 11

    Physics of Solid Surfaces · 2.2.8 Ni, Nickel

    R. M. Feenstra, S. W. Hla

  12. Online Document 12

    2.2.9 Pd, Palladium

    R. M. Feenstra, S. W. Hla

  13. Online Document 13

    2.2.10 Pt, Platinum

    R. M. Feenstra, S. W. Hla

  14. Online Document 14

    2.2.11 Ta, Tantalum

    R. M. Feenstra, S. W. Hla

  15. Online Document 15

    2.2.12 V, Vanadium

    R. M. Feenstra, S. W. Hla

  16. Online Document 16

    2.2.13 W, Tungsten

    R. M. Feenstra, S. W. Hla

  17. Online Document 17

    2.3 Semiconductor

    R. M. Feenstra, S. W. Hla

  18. Online Document 18

    2.3.1 AlAs, Aluminum Arsenide

    R. M. Feenstra, S. W. Hla

  19. Online Document 19

    2.3.2 AlN, Aluminum Nitride

    R. M. Feenstra, S. W. Hla

  20. Online Document 20

    2.3.3 AlSb, Aluminum Antimonide

    R. M. Feenstra, S. W. Hla

  21. Online Document 21

    Physics of Solid Surfaces · 2.3.4 C, Diamond

    R. M. Feenstra, S. W. Hla

  22. Online Document 22

    2.3.5 CdSe, Cadmium Selenide, and CdS, Cadmium Sulfide

    R. M. Feenstra, S. W. Hla

  23. Online Document 23

    2.3.6 GaAs, Gallium Arsenide

    R. M. Feenstra, S. W. Hla

  24. Online Document 24

    2.3.7 GaN, Gallium Nitride

    R. M. Feenstra, S. W. Hla

  25. Online Document 25

    2.3.8 GaP, Gallium Phosphide

    R. M. Feenstra, S. W. Hla

  26. Online Document 26

    2.3.9 GaSb, Gallium Antimonide

    R. M. Feenstra, S. W. Hla

  27. Online Document 27

    2.3.10 Ge, Germanium

    R. M. Feenstra, S. W. Hla

  28. Online Document 28

    2.3.11 InAs, Indium Arsenide

    R. M. Feenstra, S. W. Hla

  29. Online Document 29

    2.3.12 InP, Indium Phosphide

    R. M. Feenstra, S. W. Hla

  30. Online Document 30

    2.3.13 InN, Indium Nitride

    R. M. Feenstra, S. W. Hla

  31. Online Document 31

    2.3.14 Si, Silicon

    R. M. Feenstra, S. W. Hla

  32. Online Document 32

    2.3.15 SiC, Silicon Carbide

    R. M. Feenstra, S. W. Hla

  33. Online Document 33

    3.1 Introduction to manipulation of surfaces with the methods of scanning probe microscopy

    G. Meyer, L. Gross, J. Repp

  34. Online Document 34

    3.2 Lateral manipulation

    G. Meyer, L. Gross, J. Repp

  35. Online Document 35

    3.3 Vertical manipulation and desorption

    G. Meyer, L. Gross, J. Repp

  36. Online Document 36

    3.4 Atomic-scale chemistry

    G. Meyer, L. Gross, J. Repp

  37. Online Document 37

    3.5 Molecular mechanics

    G. Meyer, L. Gross, J. Repp

  38. Online Document 38

    3.6 Manipulation on insulators

    G. Meyer, L. Gross, J. Repp

  39. Online Document 39

    3.7 Atomic/molecular switches

    G. Meyer, L. Gross, J. Repp

  40. Online Document 40

    3.8 Tip functionalization by atomic/molecular manipulation

    G. Meyer, L. Gross, J. Repp

  41. Online Document 41

    3.9 Substrate manipulation

    G. Meyer, L. Gross, J. Repp

  42. Online Document 42

    3.10 Manipulation of surfaces with the methods of scanning probe microscopy: Data

    G. Meyer, L. Gross, J. Repp

  43. Online Document 43

    4.1 Introduction to X-ray diffraction of surface structures

    M. Sauvage-Simkin

  44. Online Document 44

    4.2.1 Metals and alloys

    M. Sauvage-Simkin

  45. Online Document 45

    4.2.2 Oxide surfaces and interfaces

    M. Sauvage-Simkin

  46. Online Document 46

    4.2.3 Semiconductor surfaces, interfaces, and nanostructures

    M. Sauvage-Simkin

  47. Online Document 47

    4.2.4 In-situ X-ray diffraction experiments on surfaces and interfaces

    M. Sauvage-Simkin

  48. Online Document 48

    5.1 Introduction to elastic scattering and diffraction of electrons and positrons

    W. Moritz

  49. Online Document 49

    Physics of Solid Surfaces · 5.2 LEED

    W. Moritz

  50. Online Document 50

    Physics of Solid Surfaces · 5.3 RHEED

    W. Moritz

  51. Online Document 51

    Physics of Solid Surfaces · 5.4 SPA-LEED

    W. Moritz

  52. Online Document 52

    Physics of Solid Surfaces · 5.5 VLEED

    W. Moritz

  53. Online Document 53

    Physics of Solid Surfaces · 5.6 SPLEED

    W. Moritz

  54. Online Document 54

    Physics of Solid Surfaces · 5.7 LEPD

    W. Moritz

  55. Online Document 55

    5.8 Elastic scattering and diffraction of electrons and positrons: Introduction to Data

    W. Moritz

  56. Online Document 56

    Physics of Solid Surfaces · 5.8.1 Ag

    W. Moritz

  57. Online Document 57

    Physics of Solid Surfaces · 5.8.2 Al

    W. Moritz

  58. Online Document 58

    Physics of Solid Surfaces · 5.8.3 Au

    W. Moritz

  59. Online Document 59

    Physics of Solid Surfaces · 5.8.4 Be, Bi

    W. Moritz

  60. Online Document 60

    Physics of Solid Surfaces · 5.8.5 C, Ca, Cd

    W. Moritz

  61. Online Document 61

    Physics of Solid Surfaces · 5.8.6 Co

    W. Moritz

  62. Online Document 62

    Physics of Solid Surfaces · 5.8.7 Cr

    W. Moritz

  63. Online Document 63

    Physics of Solid Surfaces · 5.8.8 Cu

    W. Moritz

  64. Online Document 64

    Physics of Solid Surfaces · 5.8.9 Fe

    W. Moritz

  65. Online Document 65

    Physics of Solid Surfaces · 5.8.10 Ga

    W. Moritz

  66. Online Document 66

    Physics of Solid Surfaces · 5.8.11 Gd, Ge

    W. Moritz

  67. Online Document 67

    Physics of Solid Surfaces · 5.8.12 H, In

    W. Moritz

  68. Online Document 68

    Physics of Solid Surfaces · 5.8.13 Ir

    W. Moritz

  69. Online Document 69

    Physics of Solid Surfaces · 5.8.14 K, La, Li

    W. Moritz

  70. Online Document 70

    Physics of Solid Surfaces · 5.8.15 Mg

    W. Moritz

  71. Online Document 71

    Physics of Solid Surfaces · 5.8.16 Mo

    W. Moritz

  72. Online Document 72

    Physics of Solid Surfaces · 5.8.17 Na, Nb

    W. Moritz

  73. Online Document 73

    Physics of Solid Surfaces · 5.8.18 Ni

    W. Moritz

  74. Online Document 74

    Physics of Solid Surfaces · 5.8.19 Pb

    W. Moritz

  75. Online Document 75

    Physics of Solid Surfaces · 5.8.20 Pd

    W. Moritz

  76. Online Document 76

    Physics of Solid Surfaces · 5.8.21 Pt

    W. Moritz

  77. Online Document 77

    Physics of Solid Surfaces · 5.8.22 Rb, Re

    W. Moritz

  78. Online Document 78

    Physics of Solid Surfaces · 5.8.23 Rh

    W. Moritz

  79. Online Document 79

    Physics of Solid Surfaces · 5.8.24 Ru

    W. Moritz

  80. Online Document 80

    Physics of Solid Surfaces · 5.8.25 Si

    W. Moritz

  81. Online Document 81

    Physics of Solid Surfaces · 5.8.26 Sn, Sr

    W. Moritz

  82. Online Document 82

    5.8.27 Ta, Tb, Ti

    W. Moritz

  83. Online Document 83

    Physics of Solid Surfaces · 5.8.28 V

    W. Moritz

  84. Online Document 84

    Physics of Solid Surfaces · 5.8.29 W

    W. Moritz

  85. Online Document 85

    5.8.30 Xe, Zn, Zr

    W. Moritz

  86. Online Document 86

    6.1 Introduction to elastic and inelastic scattering of ions

    M. J. Gladys, D. J. O’Connor

  87. Online Document 87

    6.2 Low Energy Ion Scattering

    M. J. Gladys, D. J. O’Connor

  88. Online Document 88

    6.3 Medium Energy Ion Scattering

    M. J. Gladys, D. J. O’Connor

  89. Online Document 89

    6.4 Rutherford backscattering

    M. J. Gladys, D. J. O’Connor

  90. Online Document 90

    6.5 High energy elastic recoil

    M. J. Gladys, D. J. O’Connor

  91. Online Document 91

    6.6 Recent applications of ion beam techniques

    M. J. Gladys, D. J. O’Connor

  92. Online Document 92

    6.7 Summary of ion scattering

    M. J. Gladys, D. J. O’Connor

  93. Online Document 93

    7.1 Introduction to electronic structure of surfaces

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  94. Online Document 94

    7.2 Introduction to Metal surfaces

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  95. Online Document 95

    7.2.1 Noble metals

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  96. Online Document 96

    7.2.2 Transition metals

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  97. Online Document 97

    Physics of Solid Surfaces · 7.2.3 sp metals

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  98. Online Document 98

    7.3 Introduction to Semiconductor surfaces

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  99. Online Document 99

    7.3.1 Group-IV semiconductor surfaces

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  100. Online Document 100

    7.3.2 The surfaces of III-V compounds

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  101. Online Document 101

    7.3.3 II-VI compound surfaces

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  102. Online Document 102

    7.3.4 CaF2 and other fluorides surfaces

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  103. Online Document 103

    7.4 Introduction to Oxide surfaces

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  104. Online Document 104

    7.4.1 Silicon oxides

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  105. Online Document 105

    7.4.2 The surfaces of rocksalt alkaline-earth monoxides: MgO, CaO, SrO and BaO

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  106. Online Document 106

    7.4.3 The surfaces of metal dioxides: TiO2 and SnO2

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  107. Online Document 107

    7.4.4 The surfaces of cubic perovskites

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  108. Online Document 108

    7.4.5 Magnetic oxides

    C. M. Bertoni, G. Cappellini, F. Finocchi, P. Monachesi

  109. Online Document 109

    8.1 Introduction to optical properties of surfaces

    P. Chiaradia

  110. Online Document 110

    8.2.1 Introduction to Metals

    P. Chiaradia

  111. Online Document 111

    Physics of Solid Surfaces · 8.2.1.1 Ag(110)

    P. Chiaradia

  112. Online Document 112

    Physics of Solid Surfaces · 8.2.1.2 Al(110)

    P. Chiaradia

  113. Online Document 113

    Physics of Solid Surfaces · 8.2.1.3 Au(110)

    P. Chiaradia

  114. Online Document 114

    Physics of Solid Surfaces · 8.2.1.4 Cu(110)

    P. Chiaradia

  115. Online Document 115

    Physics of Solid Surfaces · 8.2.1.5 Cu(111)

    P. Chiaradia

  116. Online Document 116

    Physics of Solid Surfaces · 8.2.1.6 Ni(110)

    P. Chiaradia

  117. Online Document 117

    Physics of Solid Surfaces · 8.2.1.7 Rh(110)

    P. Chiaradia

  118. Online Document 118

    Physics of Solid Surfaces · 8.2.1.8 W(110)

    P. Chiaradia

  119. Online Document 119

    8.2.2.1.1 C(100) (diamond)

    P. Chiaradia

  120. Online Document 120

    8.2.2.1.2 C(111) (diamond)

    P. Chiaradia

  121. Online Document 121

    8.2.2.1.3 Ge(100)

    P. Chiaradia

  122. Online Document 122

    8.2.2.1.4 Ge(110)

    P. Chiaradia

  123. Online Document 123

    8.2.2.1.5 Ge(111)

    P. Chiaradia

  124. Online Document 124

    8.2.2.1.6 Si(100)

    P. Chiaradia

  125. Online Document 125

    8.2.2.1.7 Si(110)

    P. Chiaradia

  126. Online Document 126

    8.2.2.1.8 Si(111)-(2×1)

    P. Chiaradia

  127. Online Document 127

    8.2.2.1.9 Si(111)-(7×7)

    P. Chiaradia

  128. Online Document 128

    8.2.2.2.1 GaAs(100)

    P. Chiaradia

  129. Online Document 129

    8.2.2.2.2 GaAs(110)

    P. Chiaradia

  130. Online Document 130

    8.2.2.2.3 InAs(100)

    P. Chiaradia

  131. Online Document 131

    8.2.2.2.4 InP(100)

    P. Chiaradia

  132. Online Document 132

    8.2.2.2.5 InP(110)

    P. Chiaradia

  133. Online Document 133

    8.2.2.3.1 CdS(100)

    P. Chiaradia

  134. Online Document 134

    Physics of Solid Surfaces · 8.2.2.3.2 CdSe

    P. Chiaradia

  135. Online Document 135

    8.2.2.3.3 CdTe(110)

    P. Chiaradia

  136. Online Document 136

    Physics of Solid Surfaces · 8.2.2.3.4 ZnO

    P. Chiaradia

  137. Online Document 137

    Physics of Solid Surfaces · 8.2.2.3.5 ZnS

    P. Chiaradia

  138. Online Document 138

    8.2.2.3.6 ZnSe(100)

    P. Chiaradia

  139. Online Document 139

    8.2.2.3.7 ZnTe(110)

    P. Chiaradia

  140. Online Document 140

    8.2.2.3.8 ZnTe(100)

    P. Chiaradia

  141. Online Document 141

    8.2.2.4.1 PbS(100)

    P. Chiaradia

  142. Online Document 142

    Physics of Solid Surfaces · 8.2.2.4.2 PbSe

    P. Chiaradia

  143. Online Document 143

    Physics of Solid Surfaces · 8.2.2.4.3 PbTe

    P. Chiaradia

  144. Online Document 144

    Physics of Solid Surfaces · 8.2.2.4.4 SnTe

    P. Chiaradia

  145. Online Document 145

    9.1 Introduction to inelastic scattering of electrons and 9.2 Advances in the spectrometer design

    M. Rocca

  146. Online Document 146

    9.3 Surface vibrations

    M. Rocca

  147. Online Document 147

    9.4 Plasmon-Phonon coupling in semiconductor

    M. Rocca

  148. Online Document 148

    9.5 Surface plasmon dispersion and single particle excitations

    M. Rocca

  149. Online Document 149

    9.6 Magnetic surfaces and surface magnon dispersion

    M. Rocca

  150. Online Document 150

    Physics of Solid Surfaces · 9.7.1 Metals

    M. Rocca

  151. Online Document 151

    Physics of Solid Surfaces · 9.7.2 Semimetals

    M. Rocca

  152. Online Document 152

    9.7.3 Semiconductor

    M. Rocca

  153. Online Document 153

    10.1 Introduction to interaction of atoms with surfaces and surface phonons

    G. Benedek, D. Campi, J. P. Toennies

  154. Online Document 154

    10.2 Introduction to atom-surface interaction

    G. Benedek, D. Campi, J. P. Toennies

  155. Online Document 155

    10.3 Introduction to surface phonons

    G. Benedek, D. Campi, J. P. Toennies

  156. Online Document 156

    10.4 Interaction of atoms with surfaces and surface phonons: Introduction to Data

    G. Benedek, D. Campi, J. P. Toennies

  157. Online Document 157

    10.4.1 Insulator surfaces measured with helium atom scattering and related calculations, with references

    G. Benedek, D. Campi, J. P. Toennies

  158. Online Document 158

    10.4.2 Semiconductor surfaces measured with helium atom scattering and related calculations, with references

    G. Benedek, D. Campi, J. P. Toennies

  159. Online Document 159

    10.4.3 Layered compound surfaces measured with helium atom scattering and related calculations, with references

    G. Benedek, D. Campi, J. P. Toennies

  160. Online Document 160

    10.4.4 Metal, metal alloy, and elemental semi-metal surfaces measured with helium atom scattering and related calculations

    G. Benedek, D. Campi, J. P. Toennies

  161. Online Document 161

    10.4.5 Vibrations of adsorbates on insulator surfaces measured with helium atom scattering, with references

    G. Benedek, D. Campi, J. P. Toennies

  162. Online Document 162

    10.4.6 Vibrations of adsorbates on metal and semimetal surfaces measured with helium atom scattering, with references

    G. Benedek, D. Campi, J. P. Toennies

  163. Online Document 163

    10.4.7 Vibrations of diatomic adsorbates on metal surfaces measured with helium atom scattering, with references

    G. Benedek, D. Campi, J. P. Toennies

  164. Online Document 164

    10.4.8 Vibrations of polyatomic adsorbates on metal surfaces measured with helium atom scattering, with references

    G. Benedek, D. Campi, J. P. Toennies

  165. Online Document 165

    11.1 Introduction to magnetic properties at surface

    L. Mattera

  166. Online Document 166

    11.2.1 Thickness dependence of the Curie temperature

    L. Mattera

  167. Online Document 167

    11.2.2 Magnetization vs. T

    L. Mattera

  168. Online Document 168

    11.2.3 Surface enhancement of magnetic moments

    L. Mattera

  169. Online Document 169

    11.2.4 Magnetic anisotropy

    L. Mattera

  170. Online Document 170

    12.1 Introduction – C nanotubes

    A. Zecchina, D. Scarano, F. Cesano

  171. Online Document 171

    12.2 BN nanotubes

    A. Zecchina, D. Scarano, F. Cesano

  172. Online Document 172

    12.3 Oxides nanotubes

    A. Zecchina, D. Scarano, F. Cesano

  173. Online Document 173

    12.4 Metal sulfides nanotubes

    A. Zecchina, D. Scarano, F. Cesano

  174. Online Document 174

    12.5 Surface properties of nanotubes: Conclusions

    A. Zecchina, D. Scarano, F. Cesano

  175. Online Document 175

    13.1 Introduction – van der Waals and Casimir forces

    D. Iannuzzi, R. Sedmik

  176. Online Document 176

    13.2 Casimir force experiments: a historical panorama

    D. Iannuzzi, R. Sedmik

  177. Online Document 177

    13.3 Dependence on dielectric functions

    D. Iannuzzi, R. Sedmik

  178. Online Document 178

    13.4 Dependence on geometry

    D. Iannuzzi, R. Sedmik

  179. Online Document 179

    13.5 Dependence on surface roughness

    D. Iannuzzi, R. Sedmik

  180. Online Document 180

    13.6 Casimir force experiments: surface effects

    D. Iannuzzi, R. Sedmik

  181. Online Document 181

    13.7 Casimir force in gaseous and liquid environments

    D. Iannuzzi, R. Sedmik