-
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