Semiconductors · Semiconductors

Editors: U. Roessler

ISBN: 978-3-540-74391-0 (Print) 978-3-540-74392-7 (Online)

DOI: 10.1007/978-3-540-74392-7

Table of contents (222 documents)

Online Document 1

Be1−x Mn x Te: hysteresis

Tomasz Dietl, Witold Dobrowolski, Tomasz Story
Online Document 2

Be x Zn1−x O: lattice constant

B.K. Meyer
Online Document 3

Be x Zn1−x O: energy gaps

B.K. Meyer
Online Document 4

Hg1−x Cd x Te: phonon frequencies

J. Chu
Online Document 5

Hg1−x Cd x Te: reflectance, absorption

J. Chu
Online Document 6

Hg1–x Cd x Te: binding energies (impurities and defects)

J. Chu
Online Document 7

Cd1–x Mg x Se: exciton energies

J. Gutowski, K. Sebald, T. Voss
Online Document 8

Cd1–x Mg x Se: conductivity, Hall mobility

J. Gutowski, K. Sebald, T. Voss
Online Document 9

Cd1–x Mg x Se: refractive index, absorption, dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 10

Cd1–x Mg x Te: critical point energies

J. Gutowski, K. Sebald, T. Voss
Online Document 11

Cd1–x Mg x Te: dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 12

Mg x Zn y Cd1−x−y Se: energy gaps

J. Gutowski, K. Sebald, T. Voss
Online Document 13

CdO: transmission, photoemission data

J. Gutowski, K. Sebald, T. Voss
Online Document 14

CdO: muonium data (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 15

CdO: photoconductivity, resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 16

CdO: thermoelectric power

J. Gutowski, K. Sebald, T. Voss
Online Document 17

CdO: mobility, Hall mobility

J. Gutowski, K. Sebald, T. Voss
Online Document 18

CdO x Te1−x : composition dependence of energy gap

J. Gutowski, K. Sebald, T. Voss
Online Document 19

Zn x Cd1–x O: band offsets

J. Gutowski, K. Sebald, T. Voss
Online Document 20

Zn1–x Cd x O: lattice constants

B.K. Meyer
Online Document 21

Zn1–x Cd x O: energy gaps

B.K. Meyer
Online Document 22

Zn1–x Cd x O: band offsets

B.K. Meyer
Online Document 23

Zn1–x Cd x O: reflectance, absorption and photoluminescence

B.K. Meyer
Online Document 24

CdS, zincblende configuration: band structure, energies at symmetry points, gap energies

J. Gutowski, K. Sebald, T. Voss
Online Document 25

CdS, zincblende configuration: Luttinger parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 26

Semiconductors · CdS: energy gaps

J. Gutowski, K. Sebald, T. Voss
Online Document 27

CdS: exciton energies, exciton binding energies

J. Gutowski, K. Sebald, T. Voss
Online Document 28

CdS: muonium data (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 29

CdS: donor-acceptor pairs

J. Gutowski, K. Sebald, T. Voss
Online Document 30

CdS: ionization energies (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 31

CdS: bound excitons

J. Gutowski, K. Sebald, T. Voss
Online Document 32

CdS: conductivity, resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 33

CdS: absorption coefficient

J. Gutowski, K. Sebald, T. Voss
Online Document 34

CdS: biexciton data

J. Gutowski, K. Sebald, T. Voss
Online Document 35

CdS: nonlinear optical properties

J. Gutowski, K. Sebald, T. Voss
Online Document 36

Semiconductors · CdS: mobility

J. Gutowski, K. Sebald, T. Voss
Online Document 37

CdS: defect formation energies

J. Gutowski, K. Sebald, T. Voss
Online Document 38

CdS x Se1–x : band structure, bowing parameter

J. Gutowski, K. Sebald, T. Voss
Online Document 39

CdS x Se1–x : absorption, refractive index

J. Gutowski, K. Sebald, T. Voss
Online Document 40

CdS x Se1–x : exciton energy

J. Gutowski, K. Sebald, T. Voss
Online Document 41

CdS x Se1–x : band offsets

J. Gutowski, K. Sebald, T. Voss
Online Document 42

CdS x Se1–x : excitonic energy, dephasing time

J. Gutowski, K. Sebald, T. Voss
Online Document 43

Zn x Cd1–x S y Se1–y : band structure, bowing parameter

J. Gutowski, K. Sebald, T. Voss
Online Document 44

CdS x Te1–x : energy gaps, bowing parameter

J. Gutowski, K. Sebald, T. Voss
Online Document 45

CdS x Te1–x : absorption, dielectric constant

J. Gutowski, K. Sebald, T. Voss
Online Document 46

CdS x Te1–x : band offsets

J. Gutowski, K. Sebald, T. Voss
Online Document 47

Zn x Cd1–x S: energy gaps

J. Gutowski, K. Sebald, T. Voss
Online Document 48

Zn x Cd1–x S: conductivity, resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 49

Zn x Cd1–x S: refractive index, dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 50

Zn x Cd1–x S: mobility

J. Gutowski, K. Sebald, T. Voss
Online Document 51

CdSe, zincblende configuration: band structure, energies at symmetry points, gap energies

J. Gutowski, K. Sebald, T. Voss
Online Document 52

CdSe: Luttinger parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 53

CdSe, hexagonal modification: interband transition energies

J. Gutowski, K. Sebald, T. Voss
Online Document 54

CdSe, hexagonal modification: energy gaps

J. Gutowski, K. Sebald, T. Voss
Online Document 55

CdSe: exciton energies, exchange splitting

J. Gutowski, K. Sebald, T. Voss
Online Document 56

CdSe: muonium data (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 57

CdSe: conductivity, resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 58

Semiconductors · CdSe: mobilities

J. Gutowski, K. Sebald, T. Voss
Online Document 59

CdSe: refractive index

J. Gutowski, K. Sebald, T. Voss
Online Document 60

CdSe: dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 61

CdSe: nonlinear absorption

J. Gutowski, K. Sebald, T. Voss
Online Document 62

CdSe: spin-orbit splitting, crystal-field splitting

J. Gutowski, K. Sebald, T. Voss
Online Document 63

CdSe: g values (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 64

CdSe: electron and hole traps

J. Gutowski, K. Sebald, T. Voss
Online Document 65

CdSe x Te1–x : energy gaps, bowing parameter, band offsets

J. Gutowski, K. Sebald, T. Voss
Online Document 66

CdSe x Te1–x : resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 67

CdSe x Te1–x : absorption, refractive index, dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 68

CdSe x Te1–x : band offsets

J. Gutowski, K. Sebald, T. Voss
Online Document 69

Zn x Cd1–x Se: energy gaps, g factor, splitting of exciton transitions

J. Gutowski, K. Sebald, T. Voss
Online Document 70

Zn x Cd1–x Se: ionization energies, g values (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 71

Zn x Cd1−x Se: refractive index

J. Gutowski, K. Sebald, T. Voss
Online Document 72

CdTe, zincblende configuration: band structure, energies at symmetry points, gap energies

J. Gutowski, K. Sebald, T. Voss
Online Document 73

CdTe: Luttinger parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 74

CdTe: energy gaps, temperature and pressure dependence

J. Gutowski, K. Sebald, T. Voss
Online Document 75

CdTe: energies at symmetry points

J. Gutowski, K. Sebald, T. Voss
Online Document 76

CdTe: critical point energies, temperature dependence

J. Gutowski, K. Sebald, T. Voss
Online Document 77

CdTe: deformation potentials

J. Gutowski, K. Sebald, T. Voss
Online Document 78

CdTe: exciton energies

J. Gutowski, K. Sebald, T. Voss
Online Document 79

CdTe: ionization energies of shallow impurities

J. Gutowski, K. Sebald, T. Voss
Online Document 80

CdTe: donor-acceptor-pairs

J. Gutowski, K. Sebald, T. Voss
Online Document 81

CdTe: ionization energies of deep impurities

J. Gutowski, K. Sebald, T. Voss
Online Document 82

CdTe: impurity complexes

J. Gutowski, K. Sebald, T. Voss
Online Document 83

CdTe: defect formation energies, entropy of point defects, migration energy

J. Gutowski, K. Sebald, T. Voss
Online Document 84

CdTe: bound excitons

J. Gutowski, K. Sebald, T. Voss
Online Document 85

CdTe: conductivity, resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 86

Semiconductors · CdTe: mobility

J. Gutowski, K. Sebald, T. Voss
Online Document 87

CdTe: carrier concentration, self-diffusion

J. Gutowski, K. Sebald, T. Voss
Online Document 88

CdTe: thermoelectric power

J. Gutowski, K. Sebald, T. Voss
Online Document 89

CdTe: refractive index

J. Gutowski, K. Sebald, T. Voss
Online Document 90

Semiconductors · CdTe: absorption

J. Gutowski, K. Sebald, T. Voss
Online Document 91

Semiconductors · CdTe: density

J. Gutowski, K. Sebald, T. Voss
Online Document 92

CdTe: enthalpy, entropy

J. Gutowski, K. Sebald, T. Voss
Online Document 93

Semiconductors · CdTe: hardness

J. Gutowski, K. Sebald, T. Voss
Online Document 94

CdTe: Debye temperature

J. Gutowski, K. Sebald, T. Voss
Online Document 95

CdTe: effective Landé g factors

J. Gutowski, K. Sebald, T. Voss
Online Document 96

CdTe: thermal conductivity

J. Gutowski, K. Sebald, T. Voss
Online Document 97

CdTe: muonium data (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 98

Cd x Zn1–x Te: energy gaps

J. Gutowski, K. Sebald, T. Voss
Online Document 99

Cd x Zn1–x Te: ionization energies, free-to-bound transitions

J. Gutowski, K. Sebald, T. Voss
Online Document 100

Cd x Zn1–x Te: conductivity, mobilities, diffusion coefficient

J. Gutowski, K. Sebald, T. Voss
Online Document 101

Cd x Zn1–x Te: refractive index, absorption, dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 102

Cd x Zn1–x Te: Gibbs energy, enthalpy

J. Gutowski, K. Sebald, T. Voss
Online Document 103

Cd x Zn1–x Te: exciton energies

J. Gutowski, K. Sebald, T. Voss
Online Document 104

Cd x Zn1–x Te: bound excitons

J. Gutowski, K. Sebald, T. Voss
Online Document 105

Cd x Zn1–x Te: positron annihilation data at vacancy-impurity complexes (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 106

Cd x Zn1–x Te: electron and hole traps

J. Gutowski, K. Sebald, T. Voss
Online Document 107

Cd x Zn1–x Te: impurity complexes

J. Gutowski, K. Sebald, T. Voss
Online Document 108

Cd x Zn1–x Te: segregation coefficients (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 109

Zn1–x Co x O: Curie temperature, magnetization, exchange integral

Tomasz Dietl, Witold Dobrowolski, Tomasz Story
Online Document 110

Zn1–x Cr x Se: Curie temperature

Tomasz Dietl, Witold Dobrowolski, Tomasz Story
Online Document 111

Zn1–x Cr x Te: Curie temperatures

Tomasz Dietl, Witold Dobrowolski, Tomasz Story
Online Document 112

HgSe: phonon dispersion curves, phonon density of states

J. Chu
Online Document 113

HgTe: band structure

J. Chu
Online Document 114

HgTe: energy gaps

J. Chu
Online Document 115

HgTe: deformation potentials

J. Chu
Online Document 116

HgTe: phonon dispersion curves, phonon density of states

J. Chu
Online Document 117

HgTe: lattice parameter

J. Chu
Online Document 118

HgTe: elastic coefficients

J. Chu
Online Document 119

Mg x Zn1–x O, hexagonal modification: energy gaps

B.K. Meyer
Online Document 120

Mg x Zn1–x O, hexagonal modification: exciton energies

B.K. Meyer
Online Document 121

Mg x Zn1–x O, hexagonal modification: effective-mass parameters

B.K. Meyer
Online Document 122

Mg x Zn1–x O, hexagonal modification: lattice parameters, phonon wavenumbers

B.K. Meyer
Online Document 123

Mg x Zn1–x O, hexagonal modification: refractive index, dielectric constants

B.K. Meyer
Online Document 124

Mg x Zn1–x O, cubic modification: energy gaps

B.K. Meyer
Online Document 125

Mg x Zn1–x O, cubic modification: phonon wavenumbers

B.K. Meyer
Online Document 126

Mg x Zn1–x O, cubic modification: refractive index, dielectric constants

B.K. Meyer
Online Document 127

Zn1–x Mg x S y Se1–y : energy gaps

J. Gutowski, K. Sebald, T. Voss
Online Document 128

Zn1–x Mg x S y Se1–y : g values, impurity concentration

J. Gutowski, K. Sebald, T. Voss
Online Document 129

Zn1–x Mg x S y Se1–y : refractive index

J. Gutowski, K. Sebald, T. Voss
Online Document 130

Zn1–x Mg x S y Se1–y : electron and hole traps

J. Gutowski, K. Sebald, T. Voss
Online Document 131

Zn1–x Mg x S: energy gap, effective-mass parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 132

Mg y Zn1–y Te1–x Se x : energy gaps

J. Gutowski, K. Sebald, T. Voss
Online Document 133

Mg y Zn1–y Te1–x Se x : refractive index

J. Gutowski, K. Sebald, T. Voss
Online Document 134

Zn1–x Mg x Se: energy gaps, effective-mass parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 135

Zn1–x Mg x Se: g factors, electron and hole trap data (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 136

Zn1–x Mg x Se: conductivity, mobility

J. Gutowski, K. Sebald, T. Voss
Online Document 137

Zn1–x Mg x Se: refractive index

J. Gutowski, K. Sebald, T. Voss
Online Document 138

Zn1–x Mg x Se: nonlinear absorption

J. Gutowski, K. Sebald, T. Voss
Online Document 139

Zn1–x Mg x Te: energy gap, bowing parameter

J. Gutowski, K. Sebald, T. Voss
Online Document 140

Zn1–x Mg x Te: bound exciton data

J. Gutowski, K. Sebald, T. Voss
Online Document 141

Zn1–x Mg x Te: resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 142

Zn1–x Mg x Te: refractive index, dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 143

Zn1–x Mg x Te: effective-mass parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 144

Zn1–x Mn x O: exchange constants

Tomasz Dietl, Witold Dobrowolski, Tomasz Story
Online Document 145

II-VI semimagnetic semiconductors: exchange constants

Tomasz Dietl, Witold Dobrowolski, Tomasz Story
Online Document 146

Zn1–x Mn x Te: Curie temperature

Tomasz Dietl, Witold Dobrowolski, Tomasz Story
Online Document 147

ZnS1–x O x : exciton energies

J. Gutowski, K. Sebald, T. Voss
Online Document 148

ZnS1–x O x : entropy, enthalpy

J. Gutowski, K. Sebald, T. Voss
Online Document 149

ZnS1–x O x : energy gaps, bowing parameter

B.K. Meyer
Online Document 150

ZnS1–x O x : lattice constant, phonon frequencies

B.K. Meyer
Online Document 151

ZnS1–x O x : absorption coefficient

B.K. Meyer
Online Document 152

ZnSe1–x O x : energy gaps, bowing parameter

B.K. Meyer
Online Document 153

diluted magnetic oxides: Curie temperature, magnetization

Tomasz Dietl, Witold Dobrowolski, Tomasz Story
Online Document 154

ZnS x Se1–x : energy gaps, bowing parameter

J. Gutowski, K. Sebald, T. Voss
Online Document 155

ZnS x Se1–x : g values (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 156

ZnS x Se1–x : dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 157

ZnS x Se1–x : entropy, enthalpy

J. Gutowski, K. Sebald, T. Voss
Online Document 158

ZnS x Se1–x : ionization energies (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 159

ZnS x Se1–x : effective-mass parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 160

ZnS x Se1–x : band offsets

J. Gutowski, K. Sebald, T. Voss
Online Document 161

ZnS1–x Te x : energy gaps, bowing parameter

J. Gutowski, K. Sebald, T. Voss
Online Document 162

ZnS1–x Te x : impurity transitions

J. Gutowski, K. Sebald, T. Voss
Online Document 163

ZnS1–x Te x : dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 164

ZnS1–x Te x : bound exciton data

J. Gutowski, K. Sebald, T. Voss
Online Document 165

ZnS1−x Te x : band offsets

J. Gutowski, K. Sebald, T. Voss
Online Document 166

ZnS, cubic modification: band structure, energies at symmetry points, gap energies

J. Gutowski, K. Sebald, T. Voss
Online Document 167

ZnS: Luttinger parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 168

ZnS: exciton energy, binding energy, Zeeman splitting

J. Gutowski, K. Sebald, T. Voss
Online Document 169

ZnS: biexciton data

J. Gutowski, K. Sebald, T. Voss
Online Document 170

Semiconductors · ZnS: energy gaps

J. Gutowski, K. Sebald, T. Voss
Online Document 171

ZnS: exciton binding energies, absorption strength

J. Gutowski, K. Sebald, T. Voss
Online Document 172

ZnS: ionization energies (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 173

ZnS, cubic modification: heat conductivity

J. Gutowski, K. Sebald, T. Voss
Online Document 174

ZnS: refractive index, absorption, dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 175

ZnS: entropy and enthalpy

J. Gutowski, K. Sebald, T. Voss
Online Document 176

ZnS, cubic modification: resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 177

ZnSe1–x Te x : band gaps, bowing parameter

J. Gutowski, K. Sebald, T. Voss
Online Document 178

ZnSe1–x Te x : bound exciton data

J. Gutowski, K. Sebald, T. Voss
Online Document 179

ZnSe1–x Te x : hardness

J. Gutowski, K. Sebald, T. Voss
Online Document 180

ZnSe1–x Te x : exciton energies

J. Gutowski, K. Sebald, T. Voss
Online Document 181

ZnSe1–x Te x : band offsets

J. Gutowski, K. Sebald, T. Voss
Online Document 182

ZnSe: band structure, energies at symmetry points, gap energies

J. Gutowski, K. Sebald, T. Voss
Online Document 183

ZnSe: Luttinger parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 184

ZnSe: energy gaps, temperature and pressure dependence

J. Gutowski, K. Sebald, T. Voss
Online Document 185

ZnSe: effective-mass parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 186

ZnSe: exciton energies, binding energy

J. Gutowski, K. Sebald, T. Voss
Online Document 187

ZnSe: ionization and excitation energies of donors (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 188

ZnSe: ionization and excitation energies of acceptors (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 189

ZnSe: donor-acceptor pairs

J. Gutowski, K. Sebald, T. Voss
Online Document 190

ZnSe: deep impurities, muonium data

J. Gutowski, K. Sebald, T. Voss
Online Document 191

ZnSe: electron and hole traps, formation energies, deep impurities

J. Gutowski, K. Sebald, T. Voss
Online Document 192

ZnSe: bound excitons

J. Gutowski, K. Sebald, T. Voss
Online Document 193

ZnSe: heat conductivity

J. Gutowski, K. Sebald, T. Voss
Online Document 194

ZnSe: resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 195

Semiconductors · ZnSe: mobilities

J. Gutowski, K. Sebald, T. Voss
Online Document 196

ZnSe: refractive index, dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 197

ZnSe: nonlinear optical properties

J. Gutowski, K. Sebald, T. Voss
Online Document 198

ZnSe: heat capacity, enthalpy, entropy

J. Gutowski, K. Sebald, T. Voss
Online Document 199

Semiconductors · ZnSe: hardness

J. Gutowski, K. Sebald, T. Voss
Online Document 200

ZnSe: shallow donor g values

J. Gutowski, K. Sebald, T. Voss
Online Document 201

ZnSe: shallow acceptor g values

J. Gutowski, K. Sebald, T. Voss
Online Document 202

ZnTe: band structure, energies at symmetry points, gap energies

J. Gutowski, K. Sebald, T. Voss
Online Document 203

ZnTe: Luttinger parameters

J. Gutowski, K. Sebald, T. Voss
Online Document 204

ZnTe: energy gaps, energies at symmetry points

J. Gutowski, K. Sebald, T. Voss
Online Document 205

ZnTe: deformation potentials

J. Gutowski, K. Sebald, T. Voss
Online Document 206

ZnTe: exciton energies, binding energies

J. Gutowski, K. Sebald, T. Voss
Online Document 207

ZnTe: ionization energies of shallow donors

J. Gutowski, K. Sebald, T. Voss
Online Document 208

ZnTe: donor-acceptor-pairs

J. Gutowski, K. Sebald, T. Voss
Online Document 209

ZnTe: ionization energies and impurity transitions of deep donors

J. Gutowski, K. Sebald, T. Voss
Online Document 210

ZnTe: impurity complexes, positron lifetime

J. Gutowski, K. Sebald, T. Voss
Online Document 211

ZnTe: bound exciton data

J. Gutowski, K. Sebald, T. Voss
Online Document 212

ZnTe: resistivity

J. Gutowski, K. Sebald, T. Voss
Online Document 213

ZnTe: mobilities, diffusion constants

J. Gutowski, K. Sebald, T. Voss
Online Document 214

ZnTe: refractive index, dielectric constants

J. Gutowski, K. Sebald, T. Voss
Online Document 215

ZnTe: nonlinear optical properties

J. Gutowski, K. Sebald, T. Voss
Online Document 216

ZnTe: heat capacity, thermodynamic functions

J. Gutowski, K. Sebald, T. Voss
Online Document 217

ZnTe: Gibbs free energy

J. Gutowski, K. Sebald, T. Voss
Online Document 218

Semiconductors · ZnTe: hardness

J. Gutowski, K. Sebald, T. Voss
Online Document 219

ZnTe: Debye temperature

J. Gutowski, K. Sebald, T. Voss
Online Document 220

Semiconductors · ZnTe: density

J. Gutowski, K. Sebald, T. Voss
Online Document 221

ZnTe: spatial correlation (impurities and defects)

J. Gutowski, K. Sebald, T. Voss
Online Document 222

ZnTe: melting point

J. Gutowski, K. Sebald, T. Voss