Coherent semiconductor optics: from basic concepts to nanostructure applications
Gespeichert in:
| Hauptverfasser: | , , |
|---|---|
| Format: | Buch |
| Sprache: | English |
| Veröffentlicht: |
Berlin [u.a.]
Springer
2007
|
| Schlagworte: | |
| Online-Zugang: | Inhaltstext Inhaltsverzeichnis |
| Beschreibung: | XIII, 318 S. Ill., graph. Darst. |
| ISBN: | 9783540325543 3540325549 |
Internformat
MARC
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| 245 | 1 | 0 | |a Coherent semiconductor optics |b from basic concepts to nanostructure applications |c T. Meier ; P. Thomas ; S. W. Koch |
| 264 | 1 | |a Berlin [u.a.] |b Springer |c 2007 | |
| 300 | |a XIII, 318 S. |b Ill., graph. Darst. | ||
| 336 | |b txt |2 rdacontent | ||
| 337 | |b n |2 rdamedia | ||
| 338 | |b nc |2 rdacarrier | ||
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| 700 | 1 | |a Thomas, Peter |e Verfasser |4 aut | |
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Datensatz im Suchindex
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| adam_text | Contents
Part I Preliminaries
1 Introduction 3
1.1 Coherence 4
1.2 Basic Optical Principles 6
1.3 Relevant Material Systems 7
1.4 Related Systems 8
1.5 Aim of the Book 8
1.6 Necessary Prerequisites 10
1.7 Suggested Reading 10
2 Experimental Techniques 11
2.1 Linear Optical Spectra 11
2.2 Pump Probe Experiments 14
2.3 Wave Mixing Experiments 15
2.4 Transport Phenomena 15
3 Few Level Systems 17
3.1 Two Level Absorbers 18
3.2 Three and More Level Absorbers 21
3.3 Continua 21
3.4 Fano Situations 23
3.5 Suggested Reading 24
4 Coherent Tunneling 25
4.1 Analysis of Eigenstates 25
4.2 Population Dynamics 28
4.3 Equation of Motion Approach 30
4.4 Suggested Reading 33
X Contents
5 The Semiconductor Model 35
5.1 Noninteracting Particles 35
5.1.1 The 1 x 1 Tight Binding Model 35
5.1.2 The 2 x 2 Tight Binding Model 36
5.1.3 The Electron Hole Picture 39
5.1.4 Periodic Boundary Conditions 40
5.1.5 Ordered and Disordered Systems 40
5.2 Interacting Particles 42
5.3 Electron Phonon Interaction 43
5.4 Electron Light Interaction 44
6 Single Particle Properties 47
6.1 Ordered Systems 47
6.1.1 States 47
6.1.2 Eigenvalues 48
6.1.3 Density of States 51
6.1.4 Optical Spectrum 52
6.1.5 Wave Packets and Propagation 53
6.1.6 Dimerized Systems 55
6.2 Disordered Systems 55
6.2.1 States 55
6.2.2 Eigenvalues 57
6.2.3 Density of States 57
6.2.4 Optical Spectrum 58
6.2.5 Wave Packets and Propagation 58
7 The Equation of Motion Approach 61
7.1 Observables 61
7.2 Noninteracting Particles 63
7.2.1 The Two Level Bloch Equations 63
7.2.2 An Analogy 67
7.2.3 Dynamics of Optical Excitations 69
7.2.4 The Few Level Bloch Equations 73
7.2.5 Fano Situations 74
8 Dynamical Equations for Semiconductors 75
8.1 Noninteracting Particles 75
8.2 Interacting Particles 79
8.2.1 Hierarchy of Equations 79
8.2.2 Coherent Dynamics Controlled Truncation Scheme .... 80
8.2.3 Dynamical Truncation in the Coherent x 3 Limit 88
8.2.4 Hartree Fock Approach in the Coherent x^ Limit .... 92
8.2.5 Dynamical Truncation in the Coherent x^ Limit 93
8.3 Suggested Reading 98
Contents XI
Part II Applications I
9 Linear Optical Response 101
9.1 Linear Response for Two Level Systems 102
9.2 Linear Response for Few Level Systems 105
9.2.1 Continua 106
9.2.2 Homogeneous versus Inhomogeneous Ensembles 107
9.3 Linear Response for Fano Systems 108
9.3.1 Numerical Results 109
9.3.2 Analytical Discussion 114
9.4 Linear Response of the Semiconductor 119
9.4.1 Ordered Semiconductor 119
9.4.2 Dimerized Lattice 124
9.4.3 Disordered Noninteracting Semiconductor 132
9.4.4 Disordered Interacting Semiconductor 134
9.5 Suggested Reading 139
10 Coherent x^3^ Processes for Level Systems 141
10.1 Coherent x^ Processes for Two Level Systems 142
10.1.1 Pump Probe Experiments 142
10.1.2 Coherent Spectral Oscillations 145
10.1.3 Optical Stark Effect 147
10.1.4 Hole Burning 151
10.1.5 Four Wave Mixing Experiments 153
10.1.6 Polarization Interference 156
10.1.7 Photon Echoes 157
10.2 Coherent x^ Processes for Few Level Systems 159
10.2.1 Pump Probe Experiments 160
10.2.2 Four Wave Mixing Experiments 164
10.2.3 Quantum Beats 164
10.2.4 Dephasing due to Continua 167
10.3 Coherent x(3) Processes for Fano Systems 170
10.4 Homogeneous versus Inhomogeneous Ensembles 171
10.5 Suggested Reading 174
11 Coherent x^ an(i X^ Processes
in Ordered Semiconductors 177
11.1 Noninteracting Particles 178
11.2 Interacting Particles 178
11.2.1 Pump Probe Experiments 180
11.2.2 Four Wave Mixing 188
11.3 Suggested Reading 195
XII Contents
12 Coherent x^ and x^ Processes
in Disordered Semiconductors 197
12.1 Noninteracting Particles 198
12.1.1 Pump Probe Experiments 198
12.1.2 Four Wave Mixing Experiments 198
12.2 Interacting Particles 201
12.2.1 Pump Probe Experiments 201
12.2.2 Four Wave Mixing in the x(3) Limit 203
12.2.3 Four Wave Mixing in the x(5) Limit 211
12.3 Suggested Reading 213
13 Coherent Excitation Spectroscopy 215
13.1 Level Systems 215
13.2 Ordered Semiconductors 217
13.3 Disordered Semiconductors 218
13.4 Suggested Reading 219
14 Character of Continuum Transitions 221
14.1 Four Wave Mixing Traces 222
14.2 Coherent Excitation Spectroscopy 223
Part III Applications II
15 The Semiconductor with Applied Electric Field 229
15.1 Single Particle Properties 230
15.1.1 Linear Optical Response 238
15.1.2 Coherent Density Dynamics 242
15.1.3 Coherent x(3) Processes 243
15.1.4 Dynamical Localization 245
15.2 Interacting System 246
15.2.1 Linear Optical Response 247
15.2.2 Coherent Density Dynamics 249
15.2.3 Coherent x(3) Processes 249
15.2.4 Dynamical Localization 251
15.3 Suggested Reading 252
16 Mesoscopic Semiconductor Rings 255
16.1 The Model 255
16.1.1 No Magnetic Field 255
16.1.2 Magnetic Field Included 257
16.2 Single Particle Properties 260
16.2.1 The Single Particle Spectrum 260
16.2.2 Persistent Currents 261
Contents XIII
16.3 Dynamics of the Electron Hole Dipole 262
16.3.1 Noninteracting Particles 262
16.3.2 Interacting Particles 266
16.4 Linear and Nonlinear Magneto Optics 269
16.4.1 Linear Optical Spectra 270
16.4.2 Nonlinear Optical Spectra 272
16.4.3 Influence of Disorder 275
16.5 Suggested Reading 277
17 Coherent Density Dynamics
in Disordered Semiconductors 279
17.1 The Two Interacting Particles Problem 279
17.2 The Semiconductor Two Interacting Particles Problem 280
17.2.1 The Model 280
17.2.2 Electron Hole Symmetry 281
17.2.3 Dynamic Correlation Induced Delocalization 283
17.2.4 Finite Time Scaling 285
17.2.5 Influence of Correlated Versus Anticorrelated
Disorder 286
17.3 Suggested Reading 290
18 Current Echoes 291
18.1 Current Generation by Coherent Control 292
18.2 Current Decay in Disordered Semiconductors 295
18.3 Equal Electron and Hole Masses 297
18.4 Different Electron and Hole Masses 297
18.5 Excitation Intensity Dependence 299
18.6 Intraband Dynamics 300
18.7 Suggested Reading 303
19 Problems 305
Index 315
|
| adam_txt |
Contents
Part I Preliminaries
1 Introduction 3
1.1 Coherence 4
1.2 Basic Optical Principles 6
1.3 Relevant Material Systems 7
1.4 Related Systems 8
1.5 Aim of the Book 8
1.6 Necessary Prerequisites 10
1.7 Suggested Reading 10
2 Experimental Techniques 11
2.1 Linear Optical Spectra 11
2.2 Pump Probe Experiments 14
2.3 Wave Mixing Experiments 15
2.4 Transport Phenomena 15
3 Few Level Systems 17
3.1 Two Level Absorbers 18
3.2 Three and More Level Absorbers 21
3.3 Continua 21
3.4 Fano Situations 23
3.5 Suggested Reading 24
4 Coherent Tunneling 25
4.1 Analysis of Eigenstates 25
4.2 Population Dynamics 28
4.3 Equation of Motion Approach 30
4.4 Suggested Reading 33
X Contents
5 The Semiconductor Model 35
5.1 Noninteracting Particles 35
5.1.1 The 1 x 1 Tight Binding Model 35
5.1.2 The 2 x 2 Tight Binding Model 36
5.1.3 The Electron Hole Picture 39
5.1.4 Periodic Boundary Conditions 40
5.1.5 Ordered and Disordered Systems 40
5.2 Interacting Particles 42
5.3 Electron Phonon Interaction 43
5.4 Electron Light Interaction 44
6 Single Particle Properties 47
6.1 Ordered Systems 47
6.1.1 States 47
6.1.2 Eigenvalues 48
6.1.3 Density of States 51
6.1.4 Optical Spectrum 52
6.1.5 Wave Packets and Propagation 53
6.1.6 Dimerized Systems 55
6.2 Disordered Systems 55
6.2.1 States 55
6.2.2 Eigenvalues 57
6.2.3 Density of States 57
6.2.4 Optical Spectrum 58
6.2.5 Wave Packets and Propagation 58
7 The Equation of Motion Approach 61
7.1 Observables 61
7.2 Noninteracting Particles 63
7.2.1 The Two Level Bloch Equations 63
7.2.2 An Analogy 67
7.2.3 Dynamics of Optical Excitations 69
7.2.4 The Few Level Bloch Equations 73
7.2.5 Fano Situations 74
8 Dynamical Equations for Semiconductors 75
8.1 Noninteracting Particles 75
8.2 Interacting Particles 79
8.2.1 Hierarchy of Equations 79
8.2.2 Coherent Dynamics Controlled Truncation Scheme . 80
8.2.3 Dynamical Truncation in the Coherent x'3' Limit 88
8.2.4 Hartree Fock Approach in the Coherent x^ Limit . 92
8.2.5 Dynamical Truncation in the Coherent x^ Limit 93
8.3 Suggested Reading 98
Contents XI
Part II Applications I
9 Linear Optical Response 101
9.1 Linear Response for Two Level Systems 102
9.2 Linear Response for Few Level Systems 105
9.2.1 Continua 106
9.2.2 Homogeneous versus Inhomogeneous Ensembles 107
9.3 Linear Response for Fano Systems 108
9.3.1 Numerical Results 109
9.3.2 Analytical Discussion 114
9.4 Linear Response of the Semiconductor 119
9.4.1 Ordered Semiconductor 119
9.4.2 Dimerized Lattice 124
9.4.3 Disordered Noninteracting Semiconductor 132
9.4.4 Disordered Interacting Semiconductor 134
9.5 Suggested Reading 139
10 Coherent x^3^ Processes for Level Systems 141
10.1 Coherent x^ Processes for Two Level Systems 142
10.1.1 Pump Probe Experiments 142
10.1.2 Coherent Spectral Oscillations 145
10.1.3 Optical Stark Effect 147
10.1.4 Hole Burning 151
10.1.5 Four Wave Mixing Experiments 153
10.1.6 Polarization Interference 156
10.1.7 Photon Echoes 157
10.2 Coherent x^ Processes for Few Level Systems 159
10.2.1 Pump Probe Experiments 160
10.2.2 Four Wave Mixing Experiments 164
10.2.3 Quantum Beats 164
10.2.4 Dephasing due to Continua 167
10.3 Coherent x(3) Processes for Fano Systems 170
10.4 Homogeneous versus Inhomogeneous Ensembles 171
10.5 Suggested Reading 174
11 Coherent x^ an(i X^ Processes
in Ordered Semiconductors 177
11.1 Noninteracting Particles 178
11.2 Interacting Particles 178
11.2.1 Pump Probe Experiments 180
11.2.2 Four Wave Mixing 188
11.3 Suggested Reading 195
XII Contents
12 Coherent x^ and x^ Processes
in Disordered Semiconductors 197
12.1 Noninteracting Particles 198
12.1.1 Pump Probe Experiments 198
12.1.2 Four Wave Mixing Experiments 198
12.2 Interacting Particles 201
12.2.1 Pump Probe Experiments 201
12.2.2 Four Wave Mixing in the x(3) Limit 203
12.2.3 Four Wave Mixing in the x(5) Limit 211
12.3 Suggested Reading 213
13 Coherent Excitation Spectroscopy 215
13.1 Level Systems 215
13.2 Ordered Semiconductors 217
13.3 Disordered Semiconductors 218
13.4 Suggested Reading 219
14 Character of Continuum Transitions 221
14.1 Four Wave Mixing Traces 222
14.2 Coherent Excitation Spectroscopy 223
Part III Applications II
15 The Semiconductor with Applied Electric Field 229
15.1 Single Particle Properties 230
15.1.1 Linear Optical Response 238
15.1.2 Coherent Density Dynamics 242
15.1.3 Coherent x(3) Processes 243
15.1.4 Dynamical Localization 245
15.2 Interacting System 246
15.2.1 Linear Optical Response 247
15.2.2 Coherent Density Dynamics 249
15.2.3 Coherent x(3) Processes 249
15.2.4 Dynamical Localization 251
15.3 Suggested Reading 252
16 Mesoscopic Semiconductor Rings 255
16.1 The Model 255
16.1.1 No Magnetic Field 255
16.1.2 Magnetic Field Included 257
16.2 Single Particle Properties 260
16.2.1 The Single Particle Spectrum 260
16.2.2 Persistent Currents 261
Contents XIII
16.3 Dynamics of the Electron Hole Dipole 262
16.3.1 Noninteracting Particles 262
16.3.2 Interacting Particles 266
16.4 Linear and Nonlinear Magneto Optics 269
16.4.1 Linear Optical Spectra 270
16.4.2 Nonlinear Optical Spectra 272
16.4.3 Influence of Disorder 275
16.5 Suggested Reading 277
17 Coherent Density Dynamics
in Disordered Semiconductors 279
17.1 The Two Interacting Particles Problem 279
17.2 The Semiconductor Two Interacting Particles Problem 280
17.2.1 The Model 280
17.2.2 Electron Hole Symmetry 281
17.2.3 Dynamic Correlation Induced Delocalization 283
17.2.4 Finite Time Scaling 285
17.2.5 Influence of Correlated Versus Anticorrelated
Disorder 286
17.3 Suggested Reading 290
18 Current Echoes 291
18.1 Current Generation by Coherent Control 292
18.2 Current Decay in Disordered Semiconductors 295
18.3 Equal Electron and Hole Masses 297
18.4 Different Electron and Hole Masses 297
18.5 Excitation Intensity Dependence 299
18.6 Intraband Dynamics 300
18.7 Suggested Reading 303
19 Problems 305
Index 315 |
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| author | Meier, Torsten Thomas, Peter Koch, Stephan W. 1953- |
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| id | DE-604.BV022388590 |
| illustrated | Illustrated |
| index_date | 2024-07-02T17:13:37Z |
| indexdate | 2024-07-09T20:56:31Z |
| institution | BVB |
| isbn | 9783540325543 3540325549 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-015597456 |
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| publisher | Springer |
| record_format | marc |
| spelling | Meier, Torsten Verfasser aut Coherent semiconductor optics from basic concepts to nanostructure applications T. Meier ; P. Thomas ; S. W. Koch Berlin [u.a.] Springer 2007 XIII, 318 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Semiconductors Optical properties Kohärente Optik (DE-588)4207994-9 gnd rswk-swf Halbleiter (DE-588)4022993-2 gnd rswk-swf Halbleiter (DE-588)4022993-2 s Kohärente Optik (DE-588)4207994-9 s DE-604 Thomas, Peter Verfasser aut Koch, Stephan W. 1953- Verfasser (DE-588)115595716 aut text/html http://deposit.dnb.de/cgi-bin/dokserv?id=2774912&prov=M&dok_var=1&dok_ext=htm Inhaltstext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015597456&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Meier, Torsten Thomas, Peter Koch, Stephan W. 1953- Coherent semiconductor optics from basic concepts to nanostructure applications Semiconductors Optical properties Kohärente Optik (DE-588)4207994-9 gnd Halbleiter (DE-588)4022993-2 gnd |
| subject_GND | (DE-588)4207994-9 (DE-588)4022993-2 |
| title | Coherent semiconductor optics from basic concepts to nanostructure applications |
| title_auth | Coherent semiconductor optics from basic concepts to nanostructure applications |
| title_exact_search | Coherent semiconductor optics from basic concepts to nanostructure applications |
| title_exact_search_txtP | Coherent semiconductor optics from basic concepts to nanostructure applications |
| title_full | Coherent semiconductor optics from basic concepts to nanostructure applications T. Meier ; P. Thomas ; S. W. Koch |
| title_fullStr | Coherent semiconductor optics from basic concepts to nanostructure applications T. Meier ; P. Thomas ; S. W. Koch |
| title_full_unstemmed | Coherent semiconductor optics from basic concepts to nanostructure applications T. Meier ; P. Thomas ; S. W. Koch |
| title_short | Coherent semiconductor optics |
| title_sort | coherent semiconductor optics from basic concepts to nanostructure applications |
| title_sub | from basic concepts to nanostructure applications |
| topic | Semiconductors Optical properties Kohärente Optik (DE-588)4207994-9 gnd Halbleiter (DE-588)4022993-2 gnd |
| topic_facet | Semiconductors Optical properties Kohärente Optik Halbleiter |
| url | http://deposit.dnb.de/cgi-bin/dokserv?id=2774912&prov=M&dok_var=1&dok_ext=htm http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=015597456&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT meiertorsten coherentsemiconductoropticsfrombasicconceptstonanostructureapplications AT thomaspeter coherentsemiconductoropticsfrombasicconceptstonanostructureapplications AT kochstephanw coherentsemiconductoropticsfrombasicconceptstonanostructureapplications |