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| Авторизация |
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| Banyai L., Koch S.W. — Semiconductor quantum dots |
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| Предметный указатель |
Absorption coefficient, average 20
Absorption coefficient, probe 159
Absorption coefficient, two-photon 146
Amorphous matrix 211 214
Angular momentum, change 120
Angular momentum, conservation 11
Angular momentum, total 102
Asymptotic analysis 221 228
Biexciton binding energy 44 54
Bloch function 108
Boson approximation 60 156
Carrier tunneling 206
Charge, distribution, local 106
Charge, separation 194
Clebsh — Gordan coefficients 75 76
Cluster, approximation 85 86
Cluster, distribution function 219
Configuration interaction approach see “Matrix diagonalization”
Confinement regimes, intermediate 49 55
Confinement regimes, strong 38 49
Confinement regimes, weak 55—6 2
Continuity equation 221 222
Coulomb correlation 164
Coulomb potential 30 36
Critical cluster radius 22
Current density operator 118
dangling bonds 212
Dead layer 73
Density matrix, free particle 84
Density matrix, many body 83
Dielectric constant, background 15
Dielectric constant, effective 27
Dielectric constant, high frequency 182
Dielectric constant, low frequency 182
Diffusion current 217
Dipole interaction 117
Dipole matrix element 18 118 120
Displacement field 183 184
Dissipative processes 122 127
Distribution function 161
Double quantum dots 206 209
Effective hole potential 53
Effective mass differences 65
Effective mass parameter 125
electric field 194 200
Electron-phonon Hamiltonian 191
Electrostatic energy 34
Energy eigenvalues 14
Energy level scheme 121
envelope function 108
Euler — Lagrange equations 183
Excited state absorption 136
Exciton energy 15 41 42 170
Exciton-exciton interaction 168
Fermi anti-commutation relation 16 17
Field operator 16 17
Finite potential barrier 65 69
Four wave mixing 141
Franck — Condon diagram 186
Growth law 22 224
Hamiltonian, electron-phonon 191
Hartree approximation 92 162
Heitler London scheme 151
Hole potential 53
Homogeneous broadening 20
Huang — Rhys factor 185 190
Induced absorption 135 136
Induction field 31
Infrared transitions 203 204
Inhomogeneous broadening 20
Interaction Hamiltonian 18 171
Interband polarization 17
Interband susceptibility 19
Interband transitions 119
Intermediate confinement approximation 49—5 0
Intraband transitions 119
Irreducible representation 102
Kinetic equation for cluster growth 215
Landau solution 202
Laplace equation 24
Lattice model 110 115
Legendre expansion of Coulomb potential 74 75
Lifetime, one-pair state 172
Lifshitz — Slezov distribution 23 228
Lifshitz — Slezov growth law 226
Liouville equation 122 128
LO phonons 186
| Local displacement field 182
Local field effects 29
Local field factor 25
Long-wavelength approximation 117
Lorentz — Lorenz formula 27
Lyddane — Sachs — Teller relation 184
Magnetic fields 201 204
Matrix diagonalization technique 74 83
Matrix elements 103
Maxwell — Garnett formula 27 28
Mobility gap 211
Molecular binding energy see “Biexciton binding energy”
Monomer diffusion 22
Nonlinearities, third order 132—1 40 166—1
Optical phonons, continuum model 182
Optical transitions 13—2 0
Oscillator strength 19 82
Partial wave expansion 32
Perturbation theory 41
Phonon polarization 191
Photo darkening 213
Photon echo 141 145
Poisson equation 31 182
Polarizability 25
Polarization matrix elements 153 155
Polarization, macroscopic 26
Potential well, one dimensional 8
Potential well, spherical 10
Probability distribution, radius 20
Quantum beats 144
Quantum box, ground-state energy 47
Quantum box, Hamiltonian 46
Quantum confinement regimes see “Confinement regimes”
Quantum dot, superlattices 210
Quantum dot, system 23
Quantum dot, volume concentration 27
Quantum Monte Carlo method 83—8 8
Quasiclassical approximation 57
Radial distribution function 80 106
Recycling function 72
Reduced mass 15
Rydberg energy 15
Scaling 39 40 48 50 56
Schr dinger equation, radial 11
Selection rules 45
Self energy 35
Self energy, regularized 90
Self energy, surface 89
Single-particle states 14
Size distribution 20 23
Spherical Bessel functions 12
Spherical harmonics 11
Spin — orbit coupling 99 110
Stark effect 195
State, surface 94
State, volume 94
Stokes shift 187 192
Strong confinement approximation 38
Supersaturation 22 216 218
Surface levels 193
Surface polarization 29 36
Surface polarization, instabilities 88—9 9
Surface polarization, state 94
Surface tension 216
susceptibility 23 29
Susceptibility, first order 123 124
Susceptibility, third order 129 131 134 167
Susceptibility, two-photon 146
Symmetry properties 76
Thermionic emission 215 216
Trap states 138 140
Trotter formula 84
Tunneling parameter 209
Two-level model 208
Two-photon transitions 145 149
Variational wavefunction 64
Variational wavefunction, excited state 66
Variational wavefunction, quantum box 72
Variational wavefunction, two pair 70
Vector potential 201
Volume state 94
Wavefunction, antisymmetric 151
Wavefunction, electron-hole 59
Wavefunction, radial 13
Weak confinement approximation 55
Whittaker functions 58
Wigner — Eckart theorem 102
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