Landolt-Börnstein - Group III Condensed Matter
Volume 44E 2012

Semiconductors · New Data and Updates for several III-V (including mixed crystals) and II-VI Compounds

Editors: U. Rössler
ISBN: 978-3-642-23414-9 (Print) 978-3-642-23415-6 (Online)
DOI: 10.1007/978-3-642-23415-6

Table of contents (150 documents)

  1. Online Document 1

    AlAs, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  2. Online Document 2

    AlAs, wurtzite modification: energy gap

    E. C. F. da Silva

  3. Online Document 3

    AlAs, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  4. Online Document 4

    AlAs, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva

  5. Online Document 5

    AlxGa1-xAs: dielectric function

    E. C. F. da Silva

  6. Online Document 6

    AlxGa1-xAsySb1-y: lattice constants, lattice mismatch

    E. C. F. da Silva

  7. Online Document 7

    InxAl1-xAs: critical point energies

    E. C. F. da Silva

  8. Online Document 8

    InxAl1-xAs: dielectric constant

    E. C. F. da Silva

  9. Online Document 9

    AlBi: spin-orbit splitting

    E. C. F. da Silva

  10. Online Document 10

    AlP, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva

  11. Online Document 11

    AlP, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  12. Online Document 12

    AlP, zincblende modifiction: interband transition energies

    E. C. F. da Silva

  13. Online Document 13

    AlP: spin-orbit splitting

    E. C. F. da Silva

  14. Online Document 14

    AlP, zincblende modification: effective mass parameters

    E. C. F. da Silva

  15. Online Document 15

    AlP, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  16. Online Document 16

    AlP, zincblende modification: Dresselhaus spin-splitting parameter

    E. C. F. da Silva

  17. Online Document 17

    AlP: effective Landé g-factor

    E. C. F. da Silva

  18. Online Document 18

    AlSb, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  19. Online Document 19

    AlSb, wurtzite modification: energy gap

    E. C. F. da Silva

  20. Online Document 20

    AlSb, zincblende modification: critical point energies

    E. C. F. da Silva

  21. Online Document 21

    AlSb: interband transition energies

    E. C. F. da Silva

  22. Online Document 22

    AlSb, zincblende modification: spin-orbit splitting

    E. C. F. da Silva

  23. Online Document 23

    AlSb, zincblende modification: effective mass parameters

    E. C. F. da Silva

  24. Online Document 24

    AlSb, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  25. Online Document 25

    AlSb, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva

  26. Online Document 26

    AlSb, zincblende modification: Dresselhaus spin-splitting parameter

    E. C. F. da Silva

  27. Online Document 27

    AlSb, zincblende modification: dielectric constant

    E. C. F. da Silva

  28. Online Document 28

    BAs: spin-orbit splitting

    E. C. F. da Silva

  29. Online Document 29

    GaAs: effective Landé g-factor

    E. C. F. da Silva

  30. Online Document 30

    GaAs, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  31. Online Document 31

    GaAs, wurtzite modification: energy gap

    E. C. F. da Silva

  32. Online Document 32

    GaAs, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  33. Online Document 33

    GaAs, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva

  34. Online Document 34

    GaAs: conduction-band offsets, valence-band offsets

    E. C. F. da Silva

  35. Online Document 35

    GaAs: electro-optic coefficient

    E. C. F. da Silva

  36. Online Document 36

    GaAs: local density of states

    E. C. F. da Silva

  37. Online Document 37

    GaAs: binding energies

    E. C. F. da Silva

  38. Online Document 38

    GaxIn1-xAs: energy gaps

    E. C. F. da Silva

  39. Online Document 39

    GaxIn1-xAs: carrier lifetime

    E. C. F. da Silva

  40. Online Document 40

    InAs, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  41. Online Document 41

    InAs, wurtzite modification: energy gap

    E. C. F. da Silva

  42. Online Document 42

    InAs: critical point energies

    E. C. F. da Silva

  43. Online Document 43

    InAs, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  44. Online Document 44

    InAs, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva

  45. Online Document 45

    InAs: dielectric constant

    E. C. F. da Silva

  46. Online Document 46

    InAs: local density of states

    E. C. F. da Silva

  47. Online Document 47

    InAs1-xPx, wurtzite modification: energy gap

    E. C. F. da Silva

  48. Online Document 48

    InAsxSb1-x: critical point energies

    E. C. F. da Silva

  49. Online Document 49

    InAsxSb1-x: dielectric constant

    E. C. F. da Silva

  50. Online Document 50

    BP: spin-orbit splitting

    E. C. F. da Silva

  51. Online Document 51

    BSb: spin-orbit splitting

    E. C. F. da Silva

  52. Online Document 52

    GaBi: spin-orbit splitting

    E. C. F. da Silva

  53. Online Document 53

    InBi: spin-orbit splitting

    E. C. F. da Silva

  54. Online Document 54

    CdO: lattice parameters

    D. Strauch

  55. Online Document 55

    CdO: phase transitions

    D. Strauch

  56. Online Document 56

    CdO: Debye-Waller factor

    D. Strauch

  57. Online Document 57

    CdO: phonon dispersion, phonon density of states

    D. Strauch

  58. Online Document 58

    CdO: phonon frequencies

    D. Strauch

  59. Online Document 59

    CdO: elastic constants

    D. Strauch

  60. Online Document 60

    CdO: bulk modulus

    D. Strauch

  61. Online Document 61

    CdO: piezoelectric constants

    D. Strauch

  62. Online Document 62

    CdO: dielectric constants, effective charge

    D. Strauch

  63. Online Document 63

    CdS: phase transition

    D. Strauch

  64. Online Document 64

    CdS: thermal expansion

    D. Strauch

  65. Online Document 65

    CdS: lattice parameters

    D. Strauch

  66. Online Document 66

    CdS: Debye-Waller factor

    D. Strauch

  67. Online Document 67

    CdS: phonon dispersion curves, density of states

    D. Strauch

  68. Online Document 68

    CdS: phonon frequencies

    D. Strauch

  69. Online Document 69

    CdS: elastic constants

    D. Strauch

  70. Online Document 70

    CdS: bulk modulus, compressibility

    D. Strauch

  71. Online Document 71

    CdS: dielectric constants

    D. Strauch

  72. Online Document 72

    CdSe: phase transition

    D. Strauch

  73. Online Document 73

    CdSe: thermal expansion

    D. Strauch

  74. Online Document 74

    CdSe: lattice parameters

    D. Strauch

  75. Online Document 75

    CdSe: Debye-Waller factor, temperature factor, cumulants

    D. Strauch

  76. Online Document 76

    CdSe: phonon dispersion curves, phonon density of states

    D. Strauch

  77. Online Document 77

    CdSe: phonon frequencies

    D. Strauch

  78. Online Document 78

    CdSe: elastic constants, sound velocities

    D. Strauch

  79. Online Document 79

    CdSe: bulk modulus, compressibility

    D. Strauch

  80. Online Document 80

    CdSe: dielectric constant, effective charge

    D. Strauch

  81. Online Document 81

    CdTe: phase transition

    D. Strauch

  82. Online Document 82

    CdTe: thermal conductivity

    D. Strauch

  83. Online Document 83

    CdTe: lattice parameters

    D. Strauch

  84. Online Document 84

    CdTe: Debye-Waller factor

    D. Strauch

  85. Online Document 85

    CdTe: phonon dispersion curves, phonon density of states

    D. Strauch

  86. Online Document 86

    CdTe: phonon frequencies

    D. Strauch

  87. Online Document 87

    CdTe: phonon line shift and width

    D. Strauch

  88. Online Document 88

    CdTe: elastic constants

    D. Strauch

  89. Online Document 89

    CdTe: bulk modulus, compressibility

    D. Strauch

  90. Online Document 90

    CdTe: dielectric constant, effective charge

    D. Strauch

  91. Online Document 91

    InxGa1-xP: photoluminescence spectra

    E. C. F. da Silva

  92. Online Document 92

    GaP, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  93. Online Document 93

    GaP, wurtzite modification: energy gap

    E. C. F. da Silva

  94. Online Document 94

    GaP: interband transition energies

    E. C. F. da Silva

  95. Online Document 95

    GaP: spin-orbit splittings

    E. C. F. da Silva

  96. Online Document 96

    GaP: zincblende modification, effective mass parameters

    E. C. F. da Silva

  97. Online Document 97

    GaP, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  98. Online Document 98

    GaP, zincblende modification: Dresselhaus spin-splitting parameter

    E. C. F. da Silva

  99. Online Document 99

    GaP, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva

  100. Online Document 100

    GaP: local density of states

    E. C. F. da Silva

  101. Online Document 101

    GaP: Hall mobility

    E. C. F. da Silva

  102. Online Document 102

    GaP: hole concentration

    E. C. F. da Silva

  103. Online Document 103

    GaSb: linear thermal expansion coefficient

    E. C. F. da Silva

  104. Online Document 104

    GaSb, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  105. Online Document 105

    GaSb, wurtzite modification: energy gap

    E. C. F. da Silva

  106. Online Document 106

    GaSb: spin-orbit splitting

    E. C. F. da Silva

  107. Online Document 107

    GaSb, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  108. Online Document 108

    GaSb, zincblende modification: effective mass parameters

    E. C. F. da Silva

  109. Online Document 109

    GaSb: Dresselhaus spin-splitting parameter

    E. C. F. da Silva

  110. Online Document 110

    GaSb, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva

  111. Online Document 111

    GaSb: lattice constants

    E. C. F. da Silva

  112. Online Document 112

    HgO: phase transitions

    D. Strauch

  113. Online Document 113

    HgO: lattice parameters

    D. Strauch

  114. Online Document 114

    HgO: phonon frequencies, pressure-dependent line shift and width

    D. Strauch

  115. Online Document 115

    HgO: bulk modulus

    D. Strauch

  116. Online Document 116

    HgS: phase transitions

    D. Strauch

  117. Online Document 117

    New Data and Updates for several III-V (including mixed crystals) and II-VI Compounds · HgS: enthalpy

    D. Strauch

  118. Online Document 118

    HgS: lattice parameters

    D. Strauch

  119. Online Document 119

    HgS: phonon dispersion curves, phonon spectra

    D. Strauch

  120. Online Document 120

    HgS: phonon frequencies

    D. Strauch

  121. Online Document 121

    HgS: elastic constants

    D. Strauch

  122. Online Document 122

    HgS: bulk modulus

    D. Strauch

  123. Online Document 123

    HgS: dielectric constants

    D. Strauch

  124. Online Document 124

    HgSe: phase transitions, enthalpy

    D. Strauch

  125. Online Document 125

    HgSe: thermal conductivity

    D. Strauch

  126. Online Document 126

    HgSe: lattice parameter

    D. Strauch

  127. Online Document 127

    HgSe: phonon dispersion curves, phonon spectra

    D. Strauch

  128. Online Document 128

    HgSe: phonon frequencies

    D. Strauch

  129. Online Document 129

    HgTe: lattice parameters

    D. Strauch

  130. Online Document 130

    HgTe: phase transitions

    D. Strauch

  131. Online Document 131

    New Data and Updates for several III-V (including mixed crystals) and II-VI Compounds · HgTe: enthalpy

    D. Strauch

  132. Online Document 132

    HgTe: phonon dispersion curves, phonon spectra

    D. Strauch

  133. Online Document 133

    HgTe: elastic constants

    D. Strauch

  134. Online Document 134

    HgTe: bulk modulus

    D. Strauch

  135. Online Document 135

    HgTe: dielectric constant, effective charge

    D. Strauch

  136. Online Document 136

    HgTe: phonon frequencies

    D. Strauch

  137. Online Document 137

    InP, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  138. Online Document 138

    InP, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  139. Online Document 139

    InP, wurtzite modification: energy gap

    E. C. F. da Silva

  140. Online Document 140

    New Data and Updates for several III-V (including mixed crystals) and II-VI Compounds · InP: energy gap

    E. C. F. da Silva

  141. Online Document 141

    InP: spin-orbit splitting

    E. C. F. da Silva

  142. Online Document 142

    InP, zincblende modification: effective mass parameters

    E. C. F. da Silva

  143. Online Document 143

    InP, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva

  144. Online Document 144

    InP, zincblende modification: Dresselhaus spin-splitting parameter

    E. C. F. da Silva

  145. Online Document 145

    InP: impurity transitions

    E. C. F. da Silva

  146. Online Document 146

    InP: electro-optic coefficient

    E. C. F. da Silva

  147. Online Document 147

    InSb, wurtzite modification: band structure, energies at symmetry points

    E. C. F. da Silva

  148. Online Document 148

    InSb, wurtzite modification: energy gap

    E. C. F. da Silva

  149. Online Document 149

    InSb, wurtzite modification: effective mass parameters

    E. C. F. da Silva

  150. Online Document 150

    InSb, wurtzite modification: Dresselhaus spin-splitting parameters

    E. C. F. da Silva