Semiconductor optics and transport phenomena: with 10 tables, 114 problems and hints for solutions
Gespeichert in:
| Hauptverfasser: | , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2002
|
| Schriftenreihe: | Advanced texts in physics
Physics and astronomy online library |
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XI, 495 S. graph. Darst. |
| ISBN: | 3540616144 |
Internformat
MARC
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| 245 | 1 | 0 | |a Semiconductor optics and transport phenomena |b with 10 tables, 114 problems and hints for solutions |c Wilfried Schäfer ; Martin Wegener |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2002 | |
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Datensatz im Suchindex
| _version_ | 1805086122291757056 |
|---|---|
| adam_text |
Contents
1. Some Basic Facts on Semiconductors 1
1.1 Semiconductor Heterostructures 2
1.2 Doped and Modulation Doped Semiconductors 4
2. Interaction of Matter and Electromagnetic Fields 7
2.1 Microscopic Maxwell Equations 8
2.2 The Many Particle Hamiltonian 10
2.3 Second Quantization for Particles 12
2.4 Quantization of Electromagnetic Fields 19
2.4.1 Coherent States 22
2.5 The Interaction Hamiltonian of Fields and Particles 24
2.6 Macroscopic Maxwell Equations and Response Functions . 29
2.6.1 Direct Calculation of Induced Charges and Currents . . 30
2.6.2 Phenomenological Theory of Linear Response 32
2.6.3 Time Dependent Perturbation Theory 34
2.6.4 Longitudinal Response Functions 35
2.6.5 Transverse Response Functions 40
2.7 Measurable Quantities in Optics 43
2.7.1 Linear Optical Susceptibility
and Macroscopic Polarization 46
2.7.2 Absorption Coefficient 47
2.8 Problems 48
3. One Particle Properties 51
3.1 Hartree Fock Theory for Zero Temperature 52
3.2 Hartree Fock Theory for Finite Temperature 55
3.3 Band Structure and Ground State Properties 60
3.3.1 The Local Density Approximation 60
3.3.2 Lattice Periodicity 65
3.4 The Effective Mass Approximation 69
3.5 kp Perturbation Theory for Degenerate Bands 73
3.6 Transition Matrix Elements 77
3.7 Density of States 80
3.8 Position of the Chemical Potential 81
VIII Contents
3.9 Problems 83
4. Uncorrelated Optical Transitions 85
4.1 The Optical Bloch Equations 86
4.2 Linear Optical Properties 91
4.3 Nonlinear Optical Properties 94
4.3.1 Perturbation Analysis in the Frequency Domain 95
4.3.2 Introducing the Bloch Vector 97
4.3.3 Perturbation Analysis in the Time Domain 103
4.3.4 Alternative Approaches 107
4.4 Semiconductor Photodetectors 109
4.4.1 The Field Field Correlation Function
and its Relation to Coherence 110
4.5 Problems 113
5. Correlated Transitions of Bloch Electrons 115
5.1 Equations of Motion in the Hartree Fock Approximation . 115
5.2 Linear Optical Properties:
The Continuum of Interband Transitions 119
5.2.1 The Bethe Salpeter Equation 122
5.2.2 The Dielectric Function 124
5.3 Solution by Continued Fractions 127
5.4 Problems 131
6. Correlated Transitions near the Band Edge 135
6.1 The Semiconductor Bloch Equations 135
6.2 Linear Optical Properties: Bound Electron Hole Pairs 138
6.2.1 The Coulomb Green's Function 140
6.2.2 Optical Properties due to Bound Electron Hole Pairs . 144
6.2.3 Numerical Methods 149
6.2.4 Excitons in Quantum Wells 150
6.2.5 Propagation of Light: Polaritons and Cavity Polaritons 154
6.3 Nonlinear Optical Properties 159
6.3.1 The Local Field Approximation 159
6.3.2 Numerical Solutions 166
6.4 Problems 172
7. Influence of Static Magnetic Fields 175
7.1 One Particle Properties 176
7.1.1 Effective Mass Theory for Isolated Bands 178
7.1.2 Degenerate Bloch Electrons in a Magnetic Field 181
7.1.3 One Particle States in Quantum Wells 186
7.2 Optical Properties of Magneto Excitons 188
7.2.1 Evaluation of the Coulomb Matrix Element 189
7.2.2 Linear Optical Properties 191
Contents IX
7.2.3 Semiconductor Bloch Equations
in Two and Three Dimensions 196
7.2.4 Bose Condensation of Magnetoexcitons
in Two Dimensions 198
7.2.5 Nonlinear Absorption of Magnetoexcitons
in Quantum Wells 201
7.3 Problems 204
8. Influence of Static Electric Fields 207
8.1 Introduction 207
8.2 Uncorrelated Optical Transitions in Uniform Electric Fields . . 209
8.2.1 Optical Absorption 211
8.3 Correlated Optical Transitions in Uniform Electric Fields . 213
8.3.1 An Analytical Model 214
8.3.2 Representation in Parabolic Coordinates 217
8.4 Quantum Wells in Electric Fields 218
8.5 Superlattices in Electric Fields 222
8.5.1 One Particle States in Superlattices 222
8.5.2 Semiconductor Bloch Equations 231
8.6 Problems 235
9. Biexcitons 237
9.1 Truncation of the Many Particle Problem
in Coherently Driven Systems 240
9.1.1 Decomposition of Expectation Values 241
9.2 Equations of Motion in the Coherent Limit 244
9.2.1 Variational Methods 245
9.2.2 Eigenfunction Expansion 247
9.3 Bound State and Scattering Contributions 252
9.3.1 Separation of Bound States 252
9.3.2 Biexcitonic Scattering Contributions 254
9.4 Signatures of Biexcitonic Bound States 256
9.4.1 Nonlinear Absorption 257
9.4.2 Four Wave Mixing 259
9.5 Problems 264
10. Nonequilibrium Green's Functions 265
10.1 Time Evolution under the Action of External Fields 266
10.2 Definitions of One Particle Green's Functions 269
10.3 Equations of Motion of One Particle Green's Functions 273
10.4 Screened Interaction, Polarization, and Vertex Function 278
10.5 Quantum Kinetic Equations 281
10.5.1 The Two Time Formalism 284
10.5.2 Reduction of Propagators to Single Time Functions . . . 288
10.6 The Self Energy in Different Approximations 291
X Contents
10.6.1 Ground State Energy 293
10.6.2 The Screened Hartree Fock Approximation 294
10.7 The Screened Interaction 296
10.7.1 Separation of the Intraband
and the Interband Susceptibility 297
10.7.2 The Screened Interaction
in Random Phase Appproximation 298
10.8 The Second Order Born Approximation 304
10.9 Problems 310
11. The Electron—Phonon Interaction 313
11.1 The Phonon Induced Interaction 314
11.2 The Phonon Green's Function 317
11.2.1 Eigenmodes of Lattice Vibrations 317
11.2.2 Green's Function Representation
of the Density Density Correlation Function 321
11.3 Electron Phonon Coupling in the Long Wavelength Limit . . . 323
11.3.1 Coupling to Longitudinal Optical Phonons 325
11.3.2 Coupling to Acoustic Phonons 328
11.4 The Phonon Self Energy 330
11.4.1 The Polaron 331
11.4.2 Dephasing Induced by Phonons 336
11.5 Nonequilibrium Phonons 347
11.5.1 Renormalization of Phonons 347
11.5.2 Kinetic Equation for the Phonon Green's Function . . . 349
11.6 Problems 356
12. Scattering and Screening Processes 359
12.1 Carrier Phonon Scattering 360
12.1.1 Luminescence Spectra 361
12.1.2 Four Wave Mixing Experiments 365
12.1.3 Nonequilibrium Phonons 368
12.2 Carrier Carrier Scattering 369
12.2.1 The Limit of Quasi Equilibrium 378
12.3 Scattering in the Presence of Bound States 382
12.3.1 Exciton Phonon Scattering 382
12.3.2 Exciton Exciton versus Exciton Electron Scattering . . 383
12.4 Problems 385
13. The Semiconductor Laser 387
13.1 Introduction 387
13.2 Semiclassical Approach 389
13.2.1 The Semiconductor Bloch Equations in a Cavity 389
13.2.2 The Standard Rate Equations 393
13.2.3 Extended Rate Equations 396
Contents XI
13.2.4 Spectral Hole Burning 402
13.3 Quantum Theory 404
13.3.1 The Photon Kinetics 404
13.3.2 The Carrier Kinetics 407
13.3.3 The Semiconductor Laser Linewidth 409
13.4 Problems 413
14. Classical Transport 415
14.1 Transport Coefficients (Without Magnetic Field) 417
14.1.1 Electrical Conductivity 419
14.1.2 Peltier Coefficient 419
14.1.3 Thermal Conductivity 420
14.2 Transport Coefficients (with Magnetic Field) 420
14.2.1 Hall Effect and Hall Resistance 422
14.3 Towards Ballistic Electrons:
The Hot Electron Transistor 424
14.4 Problems 426
15. Electric Fields in Mesoscopic Systems 429
15.1 Elementary Approach 429
15.1.1 Resonant Tunneling I 431
15.1.2 Quantized Conductance 435
15.1.3 Coulomb Blockade and the SET Transistor 439
15.2 Resonant Tunneling II 443
15.2.1 Boundary Conditions and Discretization 445
15.2.2 Scattering Contributions 447
15.2.3 Numerical Results 448
15.2.4 Time Dependent Phenomena 449
15.3 Problems 450
16. Electric and Magnetic Fields in Mesoscopic Systems 453
16.1 The Integer Quantum Hall Effect 453
16.2 Edge Channels
and the Landauer Biittiker Multiprobe Formula 455
16.2.1 Edge Channels 456
16.3 Microscopic Derivation of the Landauer Biittiker Formula . . . 462
16.3.1 Linear Response Theory 462
16.3.2 The Multiprobe Landauer Biittiker Formula 466
16.4 The Fractional Quantum Hall Effect 468
16.5 Magnetotransport Through Dot or Antidot Lattices 470
16.6 Problems 475
References 477
Index 491 |
| any_adam_object | 1 |
| author | Schäfer, Wilfried Wegener, Martin 1961- |
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| dewey-full | 537.6226 |
| dewey-hundreds | 500 - Natural sciences and mathematics |
| dewey-ones | 537 - Electricity and electronics |
| dewey-raw | 537.6226 |
| dewey-search | 537.6226 |
| dewey-sort | 3537.6226 |
| dewey-tens | 530 - Physics |
| discipline | Physik |
| format | Book |
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| id | DE-604.BV013915285 |
| illustrated | Illustrated |
| indexdate | 2024-07-20T08:31:13Z |
| institution | BVB |
| isbn | 3540616144 |
| language | English |
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| spelling | Schäfer, Wilfried Verfasser aut Semiconductor optics and transport phenomena with 10 tables, 114 problems and hints for solutions Wilfried Schäfer ; Martin Wegener Berlin [u.a.] Springer 2002 XI, 495 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Advanced texts in physics Physics and astronomy online library Halbleiter (DE-588)4022993-2 gnd rswk-swf Elektronischer Transport (DE-588)4210733-7 gnd rswk-swf Optische Eigenschaft (DE-588)4123887-4 gnd rswk-swf Halbleiter (DE-588)4022993-2 s Optische Eigenschaft (DE-588)4123887-4 s DE-604 Elektronischer Transport (DE-588)4210733-7 s Wegener, Martin 1961- Verfasser (DE-588)137069448 aut HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009521115&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Schäfer, Wilfried Wegener, Martin 1961- Semiconductor optics and transport phenomena with 10 tables, 114 problems and hints for solutions Halbleiter (DE-588)4022993-2 gnd Elektronischer Transport (DE-588)4210733-7 gnd Optische Eigenschaft (DE-588)4123887-4 gnd |
| subject_GND | (DE-588)4022993-2 (DE-588)4210733-7 (DE-588)4123887-4 |
| title | Semiconductor optics and transport phenomena with 10 tables, 114 problems and hints for solutions |
| title_auth | Semiconductor optics and transport phenomena with 10 tables, 114 problems and hints for solutions |
| title_exact_search | Semiconductor optics and transport phenomena with 10 tables, 114 problems and hints for solutions |
| title_full | Semiconductor optics and transport phenomena with 10 tables, 114 problems and hints for solutions Wilfried Schäfer ; Martin Wegener |
| title_fullStr | Semiconductor optics and transport phenomena with 10 tables, 114 problems and hints for solutions Wilfried Schäfer ; Martin Wegener |
| title_full_unstemmed | Semiconductor optics and transport phenomena with 10 tables, 114 problems and hints for solutions Wilfried Schäfer ; Martin Wegener |
| title_short | Semiconductor optics and transport phenomena |
| title_sort | semiconductor optics and transport phenomena with 10 tables 114 problems and hints for solutions |
| title_sub | with 10 tables, 114 problems and hints for solutions |
| topic | Halbleiter (DE-588)4022993-2 gnd Elektronischer Transport (DE-588)4210733-7 gnd Optische Eigenschaft (DE-588)4123887-4 gnd |
| topic_facet | Halbleiter Elektronischer Transport Optische Eigenschaft |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=009521115&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
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