Verfügbarkeit: Optical properties of solids

Optical properties of solids:

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1. Verfasser:	Fox, Mark 1961- (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford [u.a.] Oxford Univ. Press 2007
Ausgabe:	Repr. with corr.
Schriftenreihe:	Oxford master series in condensed matter physics
Schlagworte:	Optische Eigenschaft Festkörper Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XII, 305 S. graph. Darst.
ISBN:	9780198506133 9780198506126

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Datensatz im Suchindex

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adam_text	Contents 1 Introduction 1 1.1 Classificati on of optical processes 1 1.2 Optical coefficients 2 1.3 The complex refractive index and dielectric constant 5 1.4 Optical materials 8 1.4.1 Crystalline insulators and semiconductors 8 1.4.2 Glasses 11 1.4.3 Metals 12 1.4.4 Molecular materials 13 1.4.5 Doped glasses and insulators 14 1.5 Characteristic optical physics in the solid state 15 1.5.1 Crystal symmetry 16 1.5.2 Electronic bands 18 1.5.3 Vibronic bands 19 1.5.4 The density of states 19 1.5.5 Delocalized states and collective excitations 19 1.6 Microscopic models 20 2 Classical propagation 25 2.1 Propagation of light in a dense optical medium 25 2.1.1 Atomic oscillators 26 2.1.2 Vibrational oscillators 28 2.1.3 Free electron oscillators 29 2.2 The dipole oscillator model 29 2.2.1 The Lorentz oscillator 29 2.2.2 Multiple resonances 34 2.2.3 Comparison with experimental data 37 2.2.4 Local field corrections 39 2.2.5 The Kramers-Kronig relationships 40 2.3 Dispersion 40 2.4 Optical anisotropy: birefringence 42 3 Interband absorption 49 3.1 Interband transitions 49 3.2 The transition rate for direct absorption 51 3.3 Band edge absorption in direct gap semiconductors 54 3.3.1 The atomic physics of the interband transitions 54 3.3.2 The band structure of a direct gap Щ -V semiconductor 56 3.3.3 The joint density of states 57 χ Contents 3.3.4 The frequency dependence of the band edge absorption 58 3.3.5 The Franz-Keldysh effect 60 3.3.6 Band edge absorption in a magnetic field 61 3.4 Band edge absorption in indirect gap semiconductors 63 3.5 Interband absorption above the band edge 66 3.6 Measurement of absorption spectra 68 3.7 Semiconductor photodetectors 69 3.7.1 Photodiodes 69 3.7.2 Photoconductive devices 71 3.7.3 Photovoltaic devices 71 4 Excitons 76 4.1 The concept of excitons 76 4.2 Free excitons 77 4.2.1 Binding energy and radius 77 4.2.2 Exciten absorption 79 4.2.3 Experimental data for free excitons in GaAs 80 4.3 Free excitons in external fields 82 4.3.1 Electric fields 82 4.3.2 Magnetic fields 83 4.4 Free excitons at high densities 84 4.5 Frenkel excitons 86 4.5.1 Rare gas crystals 87 4.5.2 Alkali halides 87 4.5.3 Molecular crystals 88 5 Luminescence 92 5.1 Light emission in solids 92 5.2 Interband luminescence 95 5.2.1 Direct gap materials 95 5.2.2 Indirect gap materials 96 5.3 Photoluminescence 98 5.3.1 Excitation and relaxation 98 5.3.2 Low carrier densities 100 5.3.3 Degeneracy 101 5.3.4 Photoluminescence spectroscopy 102 5.4 Electroluminescence 103 5.4.1 General principles of electroluminescent devices 103 5.4.2 Light emitting diodes 106 5.4.3 Diode lasers 107 6 Semiconductor quantum wells 115 6.1 Quantum confined structures 115 6.2 Growth and structure of semiconductor quantum wells 117 6.3 Electronic levels 119 6.3.1 Separation of the variables 119 6.3.2 Infinite potential wells 119 6.3.3 Finite potential wells 121 6.4 Optical absorption and excitons 124 Contents xi 6.4.1 Selection rules 125 6.4.2 Two-dimensional absorption 127 6.4.3 Experimental data 129 6.4.4 Excitons in quantum wells 130 6.5 The quantum confined Stark effect 131 6.6 Optical emission 133 6.7 Intersubband transitions 135 6.8 Bloch oscillators 135 6.9 Quantum dots 136 6.9.1 Semiconductor doped glasses 137 6.9.2 Self-organized Ш -V quantum dots 138 7 Free electrons 143 7.1 Plasma reflectivity 143 7.2 Free carrier conductivity 145 7.3 Metals 147 7.3.1 The Drude model 148 7.3.2 Interband transitions in metals 151 7.4 Doped semiconductors 154 7.4.1 Free carrier reflectivity and absorption 154 7.4.2 Impurity absorption 158 7.5 Plasmons 160 8 Molecular materials 165 8.1 Introduction to molecular materials 166 8.2 Electronic states in conjugated molecules 167 8.3 Optical spectra of molecules 169 8.3.1 Electronic-vibrational transitions 170 8.3.2 Molecular configuration diagrams 171 8.3.3 The Franck-Condon principle 173 8.3.4 Experimental spectra 176 8.4 Aromatic hydrocarbons 177 8.5 Conjugated polymers 179 8.6 Organic optoelectronics 181 9 Luminescence centres 186 9.1 Vibronic absorption and emission 186 9.2 Colour centres 189 9.3 Paramagnetic impurities in ionic crystals 192 9.3.1 The crystal field effect and vibronic coupling 192 9.3.2 Rare earth ions 193 9.3.3 Transition metal ions 195 9.4 Solid state lasers and optical amplifiers 196 9.5 Phosphors 199 10 Phonons 204 10.1 Infrared active phonons 204 10.2 Infrared reflectivity and absorption in polar solids 206 10.2.1 The classical oscillator model 206 10.2.2 The Lyddane-Sachs-Teller relationship 209 xii Contents 10.2.3 Restrahlen 210 10.2.4 Lattice absorption 212 10.3 Polaritons 214 10.4 Polarons 215 10.5 Inelastic light scattering 218 10.5.1 General principles of inelastic light scattering 218 10.5.2 Raman scattering 220 10.5.3 Brillouin scattering 222 10.6 Phonon lifetimes 222 11 Nonlinear optics 227 11.1 The nonlinear susceptibility tensor 227 11.2 The physical origin of optical nonlineariües 230 11.2.1 Non-resonant nonlinearities 230 11.2.2 Resonant nonlinearities 234 11.3 Second-order nonlinearities 236 11.3.1 Nonlinear frequency mixing 237 11.3.2 Crystal symmetry 239 11.3.3 Phase matching 241 11.4 Third-order nonlinear effects 243 11.4.1 Overview of third-order phenomena 243 11.4.2 Isotropie third-order nonlinear media 247 11.4.3 Resonant nonlinearities in semiconductors 249 A Electromagnetism in dielectrics 255 A.I Electromagnetic fields and Maxwell s equations 255 A.2 Electromagnetic waves 258 В Quantum theory of radiative absorption and emission 263 B.I Einstein coefficients 263 B.2 Quantum transition rates 266 B.3 Selection rules 269 С Band theory 271 C.I Metals, semiconductors and insulators 271 C.2 The nearly free electron model 273 C.3 Example band structures 276 D Semiconductor p-i-n diodes 280 Solutions to exercises 282 Bibliography 290 Symbols 295 Index 297
adam_txt	Contents 1 Introduction 1 1.1 Classificati on of optical processes 1 1.2 Optical coefficients 2 1.3 The complex refractive index and dielectric constant 5 1.4 Optical materials 8 1.4.1 Crystalline insulators and semiconductors 8 1.4.2 Glasses 11 1.4.3 Metals 12 1.4.4 Molecular materials 13 1.4.5 Doped glasses and insulators 14 1.5 Characteristic optical physics in the solid state 15 1.5.1 Crystal symmetry 16 1.5.2 Electronic bands 18 1.5.3 Vibronic bands 19 1.5.4 The density of states 19 1.5.5 Delocalized states and collective excitations 19 1.6 Microscopic models 20 2 Classical propagation 25 2.1 Propagation of light in a dense optical medium 25 2.1.1 Atomic oscillators 26 2.1.2 Vibrational oscillators 28 2.1.3 Free electron oscillators 29 2.2 The dipole oscillator model 29 2.2.1 The Lorentz oscillator 29 2.2.2 Multiple resonances 34 2.2.3 Comparison with experimental data 37 2.2.4 Local field corrections 39 2.2.5 The Kramers-Kronig relationships 40 2.3 Dispersion 40 2.4 Optical anisotropy: birefringence 42 3 Interband absorption 49 3.1 Interband transitions 49 3.2 The transition rate for direct absorption 51 3.3 Band edge absorption in direct gap semiconductors 54 3.3.1 The atomic physics of the interband transitions 54 3.3.2 The band structure of a direct gap Щ -V semiconductor 56 3.3.3 The joint density of states 57 χ Contents 3.3.4 The frequency dependence of the band edge absorption 58 3.3.5 The Franz-Keldysh effect 60 3.3.6 Band edge absorption in a magnetic field 61 3.4 Band edge absorption in indirect gap semiconductors 63 3.5 Interband absorption above the band edge 66 3.6 Measurement of absorption spectra 68 3.7 Semiconductor photodetectors 69 3.7.1 Photodiodes 69 3.7.2 Photoconductive devices 71 3.7.3 Photovoltaic devices 71 4 Excitons 76 4.1 The concept of excitons 76 4.2 Free excitons 77 4.2.1 Binding energy and radius 77 4.2.2 Exciten absorption 79 4.2.3 Experimental data for free excitons in GaAs 80 4.3 Free excitons in external fields 82 4.3.1 Electric fields 82 4.3.2 Magnetic fields 83 4.4 Free excitons at high densities 84 4.5 Frenkel excitons 86 4.5.1 Rare gas crystals 87 4.5.2 Alkali halides 87 4.5.3 Molecular crystals 88 5 Luminescence 92 5.1 Light emission in solids 92 5.2 Interband luminescence 95 5.2.1 Direct gap materials 95 5.2.2 Indirect gap materials 96 5.3 Photoluminescence 98 5.3.1 Excitation and relaxation 98 5.3.2 Low carrier densities 100 5.3.3 Degeneracy 101 5.3.4 Photoluminescence spectroscopy 102 5.4 Electroluminescence 103 5.4.1 General principles of electroluminescent devices 103 5.4.2 Light emitting diodes 106 5.4.3 Diode lasers 107 6 Semiconductor quantum wells 115 6.1 Quantum confined structures 115 6.2 Growth and structure of semiconductor quantum wells 117 6.3 Electronic levels 119 6.3.1 Separation of the variables 119 6.3.2 Infinite potential wells 119 6.3.3 Finite potential wells 121 6.4 Optical absorption and excitons 124 Contents xi 6.4.1 Selection rules 125 6.4.2 Two-dimensional absorption 127 6.4.3 Experimental data 129 6.4.4 Excitons in quantum wells 130 6.5 The quantum confined Stark effect 131 6.6 Optical emission 133 6.7 Intersubband transitions 135 6.8 Bloch oscillators 135 6.9 Quantum dots 136 6.9.1 Semiconductor doped glasses 137 6.9.2 Self-organized Ш -V quantum dots 138 7 Free electrons 143 7.1 Plasma reflectivity 143 7.2 Free carrier conductivity 145 7.3 Metals 147 7.3.1 The Drude model 148 7.3.2 Interband transitions in metals 151 7.4 Doped semiconductors 154 7.4.1 Free carrier reflectivity and absorption 154 7.4.2 Impurity absorption 158 7.5 Plasmons 160 8 Molecular materials 165 8.1 Introduction to molecular materials 166 8.2 Electronic states in conjugated molecules 167 8.3 Optical spectra of molecules 169 8.3.1 Electronic-vibrational transitions 170 8.3.2 Molecular configuration diagrams 171 8.3.3 The Franck-Condon principle 173 8.3.4 Experimental spectra 176 8.4 Aromatic hydrocarbons 177 8.5 Conjugated polymers 179 8.6 Organic optoelectronics 181 9 Luminescence centres 186 9.1 Vibronic absorption and emission 186 9.2 Colour centres 189 9.3 Paramagnetic impurities in ionic crystals 192 9.3.1 The crystal field effect and vibronic coupling 192 9.3.2 Rare earth ions 193 9.3.3 Transition metal ions 195 9.4 Solid state lasers and optical amplifiers 196 9.5 Phosphors 199 10 Phonons 204 10.1 Infrared active phonons 204 10.2 Infrared reflectivity and absorption in polar solids 206 10.2.1 The classical oscillator model 206 10.2.2 The Lyddane-Sachs-Teller relationship 209 xii Contents 10.2.3 Restrahlen 210 10.2.4 Lattice absorption 212 10.3 Polaritons 214 10.4 Polarons 215 10.5 Inelastic light scattering 218 10.5.1 General principles of inelastic light scattering 218 10.5.2 Raman scattering 220 10.5.3 Brillouin scattering 222 10.6 Phonon lifetimes 222 11 Nonlinear optics 227 11.1 The nonlinear susceptibility tensor 227 11.2 The physical origin of optical nonlineariües 230 11.2.1 Non-resonant nonlinearities 230 11.2.2 Resonant nonlinearities 234 11.3 Second-order nonlinearities 236 11.3.1 Nonlinear frequency mixing 237 11.3.2 Crystal symmetry 239 11.3.3 Phase matching 241 11.4 Third-order nonlinear effects 243 11.4.1 Overview of third-order phenomena 243 11.4.2 Isotropie third-order nonlinear media 247 11.4.3 Resonant nonlinearities in semiconductors 249 A Electromagnetism in dielectrics 255 A.I Electromagnetic fields and Maxwell's equations 255 A.2 Electromagnetic waves 258 В Quantum theory of radiative absorption and emission 263 B.I Einstein coefficients 263 B.2 Quantum transition rates 266 B.3 Selection rules 269 С Band theory 271 C.I Metals, semiconductors and insulators 271 C.2 The nearly free electron model 273 C.3 Example band structures 276 D Semiconductor p-i-n diodes 280 Solutions to exercises 282 Bibliography 290 Symbols 295 Index 297
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spelling	Fox, Mark 1961- Verfasser (DE-588)14135920X aut Optical properties of solids Mark Fox Repr. with corr. Oxford [u.a.] Oxford Univ. Press 2007 XII, 305 S. graph. Darst. txt rdacontent n rdamedia nc rdacarrier Oxford master series in condensed matter physics Optische Eigenschaft (DE-588)4123887-4 gnd rswk-swf Festkörper (DE-588)4016918-2 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Festkörper (DE-588)4016918-2 s Optische Eigenschaft (DE-588)4123887-4 s DE-604 Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016288256&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
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title	Optical properties of solids
title_auth	Optical properties of solids
title_exact_search	Optical properties of solids
title_exact_search_txtP	Optical properties of solids
title_full	Optical properties of solids Mark Fox
title_fullStr	Optical properties of solids Mark Fox
title_full_unstemmed	Optical properties of solids Mark Fox
title_short	Optical properties of solids
title_sort	optical properties of solids
topic	Optische Eigenschaft (DE-588)4123887-4 gnd Festkörper (DE-588)4016918-2 gnd
topic_facet	Optische Eigenschaft Festkörper Lehrbuch
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