Semiconductor macroatoms: basic physics and quantum-device applications
Gespeichert in:
| Format: | Buch |
|---|---|
| Sprache: | English |
| Veröffentlicht: |
London
Imperial College Press
2005
|
| Schlagworte: | |
| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | XI, 319 S. Ill., graph. Darst. |
| ISBN: | 1860946089 |
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Datensatz im Suchindex
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| adam_text | SEMICONDUCTOR MACROATOMS BASIC PHYSICS AND QUANTUM-DEVICE APPLICATIONS
EDITED BY FA U STN R O SSL POLITECNICO DI TORINO, ITALY IMPERIAL COLLEGE
PRESS CONTENTS PREFACE V 1. FUNDAMENTALS OF ZERO-DIMENSIONAL
NANOSTRUCTURES 1 1.1 INTRODUCTION 1 1.2 STRUCTURAL INFORMATION ON
QUANTUM DOTS 3 1.3 SINGLE-PARTICLE ELECTRONIC STATES IN QUANTUM DOTS 7
1.3.1 EIGENSTATES IN THE ABSENCE OF EXTERNAL PERTURBATIONS 7 1.3.2
EFFECT OF EXTERNAL FIELDS 12 1.3.2.1 ELECTRIC FIELD EFFECTS 12 1.3.2.2
MAGNETIC FIELD EFFECTS 14 1.3.3 DOT-DOT INTERACTION IN STACKED DOTS;
QUANTUM DOT MOLECULES 16 1.4 OPTICAL PROPERTIES 17 1.4.1 THE IDEALIZED
QUANTUM DOT: A TWO-LEVEL ATOM. POPULATIONS AND COHERENCE 17 1.4.2
OPTICAL PROPERTIES OF DOT ENSEMBLES. BROADENING AND SELECTION RULES 19
1.4.3 SINGLE DOT SPECTROSCOPY: THE FAILURE OF THE SIMPLE IDEAS 21 1.5
PHONONS AND CARRIER COUPLING TO THE PHONONS IN QUANTUM DOTS 26 1.6
CARRIER-CARRIER INTERACTION IN QUANTUM DOTS 32 1.6.1 ELECTRON-HOLE
INTERACTION IN QUANTUM DOTS 33 1.6.2 EXCITONIC COMPLEXES AND OPTICAL
PROPERTIES OF HIGHLY EXCITED QUANTUM DOTS: NEW PHENOMENA AND A NEW
APPROACH 36 VII I VUEI SEMICONDUCTOR MACROATOMS: BASIC PHYSICS AND
QUANTUM-DEVICE APPLICATIONS 1.6.3 AUGER SCATTERING IN QUANTUM DOTS 39 2.
GROWTH AND CHARACTERIZATION OF SELF-ASSEMBLED SEMICON- DUCTOR MACROATOMS
51 2.1 INTRODUCTION 51 2.1.1 SEMICONDUCTOR QUANTUM DOTS 53 2.2
FABRICATION AND STRUCTURAL ANALYSIS OF INGAAS/GAAS QUANTUM DOTS 54 2.3
NANOTECHNOLOGICAL STRATEGIES FOR THE FABRICATION OF SINGLE- DOT
STRUCTURES 61 2.4 MODELING OF THE CARRIER WAVEFUNCTIONS 64 2.5
PHOTOLUMINESCENCE EXPERIMENTS 73 2.6 SINGLE-DOT SPECTROSCOPY 78 2.6.1
WAVEFUNCTION SPECTROSCOPY 78 2.6.2 OPTICAL SPECTROSCOPY 85 2.7
CONCLUSIONS 92 3. ULTRAFAST COHERENT SPECTROSCOPY OF SINGLE
SEMICONDUCTOR QUANTUM DOTS 101 3.1 INTRODUCTION 101 3.2 SEMICONDUCTOR
QUANTUM DOTS 104 3.2.1 INTERFACE QUANTUM DOTS 104 3.2.2 SELF-ASSEMBLED
QUANTUM DOTS 107 3.3 EXPERIMENTAL TECHNIQUES 114 3.3.1 COHERENT
SPECTROSCOPY ON INTERFACE QUANTUM DOTS . . 115 3.3.2 COHERENT
SPECTROSCOPY ON SELF-ASSEMBLED QUANTUM DOTS 119 3.4 RESULTS 123 3.4.1
COHERENT CONTROL IN SINGLE INTERFACE QUANTUM DOTS . . 123 3.4.1.1
ULTRAFAST OPTICAL NONLINEARITIES OF SINGLE IN- TERFACE QUANTUM DOTS 123
3.4.1.2 OPTICAL STARK EFFECT AND RABI OSCILLATIONS IN A QUANTUM DOT:
ULTRAFAST CONTROL OF SINGLE EXCITON POLARIZATIONS 128 3.4.2 COHERENT
CONTROL IN SINGLE SELF-ASSEMBLED QUANTUM DOTS 138 3.5 OUTLOOK 143 4.
FEW-PARTICLE EFFECTS IN SEMICONDUCTOR MACROATOMS/MOLECULES 151 CONTENTS
IX 4.1 INTRODUCTION 151 4.2 EXCITONS 152 4.2.1 SEMICONDUCTORS OF HIGHER
DIMENSION 152 4.2.2 SEMICONDUCTOR QUANTUM DOTS 153 4.2.2.1 WEAK
CONFINEMENT REGIME 153 4.2.2.2 STRONG CONFINEMENT REGIME 154 4.2.3 SPIN
STRUCTURE 155 4.3 BIEXCITONS 157 4.3.1 WEAK CONFINEMENT REGIME 157 4.3.2
STRONG CONFINEMENT REGIME 158 4.4 FEW-PARTICLE STATES 159 4.4.1 MULTI
EXCITONS 160 4.4.2 MULTI-CHARGED EXCITONS 161 4.4.3 CONFIGURATION
INTERACTIONS 161 4.5 OPTICAL SPECTROSCOPY 162 4.5.1 EXCITONS AND
BIEXCITONS 163 4.5.1.1 WEAK CONFINEMENT REGIME 163 4.5.1.2 STRONG
CONFINEMENT REGIME 164 4.5.2 MULTI EXCITONS 165 4.5.3 MULTI-CHARGED
EXCITONS 167 4.6 INTER-DOT COUPLING: TUNNELING VS. COULOMB CORRELATIONS
. . 167 4.7 INTER-DOT COUPLING: ROLE OF THE ELECTRIC FIELD 175 5.
ELECTRON-PHONON INTERACTION IN SEMICONDUCTOR QUANTUM DOTS 183 5.1
INTRODUCTION 183 5.2 ENERGY RELAXATION IN BULK AND QUANTUM WELL
STRUCTURES . 185 5.3 MAGNETO-ABSORPTION IN QUANTUM DOTS: THE EVIDENCE
OFPOLARONS 192 5.4 ENERGY RELAXATION IN THE POLARON FRAMEWORK 207 5.5
EXCITONIC POLARONS IN QUANTUM DOTS 209 5.6 DIAGONAL NON-PERTURBATIVE
INTERACTION BETWEEN ELECTRONS AND ACOUSTIC PHONONS 212 5.7 CONCLUSIONS
215 6. PHONON-INDUCED DECOHERENCE IN SEMICONDUCTOR QUANTUM DOTS 221 6.1
INTRODUCTION 221 6.2 MODEL FOR PHONON-INDUCED PURE DEPHASING 224 X
SEMICONDUCTOR MACROATOMS: BASIC PHYSICS AND QUANTUM-DEVICE APPLICATIONS
6.3 ANALYTICAL RESULTS FOR EXCITATIONS WITH ULTRAFAST PULSES . . 226
6.3.1 LINEAR SINGLE-DOT SPECTRA 227 6.3.2 THE INITIAL DECAY OF
FOUR-WAVE-MIXING SIGNALS 230 6.3.3 IMPACT OF PURE DEPHASING ON
ELECTRONIC AND PHONONIC OCCUPATIONS 234 6.4 INFLUENCES OF TEMPORAL AND
SPECTRAL PROPERTIES OF THE LASER EXCITATION ON THE DECOHERENCE 237 6.4.1
PHONON-INDUCED DAMPING OF RABI OSCILLATIONS IN QUAN- TUM DOTS 237 6.4.2
OPTIMAL GATING STRATEGY: A TRADE-OFF BETWEEN DIFFERENT TYPES OF
DECOHERENCE 241 6.5 CONCLUSIONS 244 7. ALL-OPTICAL SCHEMES FOR QUANTUM
INFORMATION PROCESSING WITH SEMICONDUCTOR MACROATOMS 249 7.1
INTRODUCTION 249 7.2 ALL-OPTICAL QUANTUM INFORMATION/COMPUTATION WITH
SEMI- CONDUCTOR MACROATOMS 252 7.2.1 SINGLE-DOT ENCODING SCHEMES 252
7.2.2 COUPLED-DOT ENCODING SCHEMES 257 7.2.2.1 GAAS-BASED QUANTUM
HARDWARE 257 7.2.2.2 GAN-BASED QUANTUM HARDWARE 262 7.2.3 COMBINATION OF
CHARGE AND SPIN DEGREES OF FREEDOM . 268 7.2.3.1 ARTIFICIAL MOLECULES AS
QUBITS AND RAMAN ADI- ABATIC PASSAGES FOR THE OPTICAL GATING .... 271
7.3 SUMMARY AND CONCLUSIONS 278 8. NOVEL DEVICES FOR THE MEASUREMENT OF
ELECTRONIC STATES IN SEMICONDUCTOR QUANTUM DOTS 283 8.1 INTRODUCTION 283
8.2 FIELD-INDUCED EXCITON-EXCITON COUPLING IN SEMICONDUCTOR QUANTUM DOTS
WITH NO INTRINSIC BIAS 286 8.3 MODELING FEW PARTICLE INTERACTIONS IN
QUANTUM DOTS WITH INTRINSIC BIAS 294 8.3.1 ENGINEERING ELECTRONIC
STRUCTURE AND OPTICAL SPECTRUM IN COUPLED GAN QUANTUM DOTS 294 8.3.2
SEMI-ANALYTICAL MODEL 297 8.3.2.1 SINGLE EXCITON SYSTEM 298 CONTENTS XI
8.3.2.2 BIEXCITON SYSTEM 299 8.4 SEMICONDUCTOR DOUBLE QUANTUM DOT AS
STORAGE QUBIT . . . 303 8.4.1 DEFINITION 303 8.4.2 MEASUREMENT USING A
STIRAP PROCESS 305 8.4.2.1 FAILURE OF THE ADIABATIC CONDITION 308
8.4.2.2 FAILURE OF THE ENERGY CONSERVATION REQUIREMENT 310 8.5
ALL-OPTICAL READ-OUT DEVICE 311 INDEX 317
|
| adam_txt |
SEMICONDUCTOR MACROATOMS BASIC PHYSICS AND QUANTUM-DEVICE APPLICATIONS
EDITED BY FA U STN R O SSL POLITECNICO DI TORINO, ITALY IMPERIAL COLLEGE
PRESS CONTENTS PREFACE V 1. FUNDAMENTALS OF ZERO-DIMENSIONAL
NANOSTRUCTURES 1 1.1 INTRODUCTION 1 1.2 STRUCTURAL INFORMATION ON
QUANTUM DOTS 3 1.3 SINGLE-PARTICLE ELECTRONIC STATES IN QUANTUM DOTS 7
1.3.1 EIGENSTATES IN THE ABSENCE OF EXTERNAL PERTURBATIONS 7 1.3.2
EFFECT OF "EXTERNAL" FIELDS 12 1.3.2.1 ELECTRIC FIELD EFFECTS 12 1.3.2.2
MAGNETIC FIELD EFFECTS 14 1.3.3 DOT-DOT INTERACTION IN STACKED DOTS;
QUANTUM DOT MOLECULES 16 1.4 OPTICAL PROPERTIES 17 1.4.1 THE IDEALIZED
QUANTUM DOT: A TWO-LEVEL ATOM. POPULATIONS AND COHERENCE 17 1.4.2
OPTICAL PROPERTIES OF DOT ENSEMBLES. BROADENING AND SELECTION RULES 19
1.4.3 SINGLE DOT SPECTROSCOPY: THE FAILURE OF THE SIMPLE IDEAS 21 1.5
PHONONS AND CARRIER COUPLING TO THE PHONONS IN QUANTUM DOTS 26 1.6
CARRIER-CARRIER INTERACTION IN QUANTUM DOTS 32 1.6.1 ELECTRON-HOLE
INTERACTION IN QUANTUM DOTS 33 1.6.2 EXCITONIC COMPLEXES AND OPTICAL
PROPERTIES OF HIGHLY EXCITED QUANTUM DOTS: NEW PHENOMENA AND A NEW
APPROACH 36 VII I VUEI SEMICONDUCTOR MACROATOMS: BASIC PHYSICS AND
QUANTUM-DEVICE APPLICATIONS 1.6.3 AUGER SCATTERING IN QUANTUM DOTS 39 2.
GROWTH AND CHARACTERIZATION OF SELF-ASSEMBLED SEMICON- DUCTOR MACROATOMS
51 2.1 INTRODUCTION 51 2.1.1 SEMICONDUCTOR QUANTUM DOTS 53 2.2
FABRICATION AND STRUCTURAL ANALYSIS OF INGAAS/GAAS QUANTUM DOTS 54 2.3
NANOTECHNOLOGICAL STRATEGIES FOR THE FABRICATION OF SINGLE- DOT
STRUCTURES 61 2.4 MODELING OF THE CARRIER WAVEFUNCTIONS 64 2.5
PHOTOLUMINESCENCE EXPERIMENTS 73 2.6 SINGLE-DOT SPECTROSCOPY 78 2.6.1
WAVEFUNCTION SPECTROSCOPY 78 2.6.2 OPTICAL SPECTROSCOPY 85 2.7
CONCLUSIONS 92 3. ULTRAFAST COHERENT SPECTROSCOPY OF SINGLE
SEMICONDUCTOR QUANTUM DOTS 101 3.1 INTRODUCTION 101 3.2 SEMICONDUCTOR
QUANTUM DOTS 104 3.2.1 INTERFACE QUANTUM DOTS 104 3.2.2 SELF-ASSEMBLED
QUANTUM DOTS 107 3.3 EXPERIMENTAL TECHNIQUES 114 3.3.1 COHERENT
SPECTROSCOPY ON INTERFACE QUANTUM DOTS . . 115 3.3.2 COHERENT
SPECTROSCOPY ON SELF-ASSEMBLED QUANTUM DOTS 119 3.4 RESULTS 123 3.4.1
COHERENT CONTROL IN SINGLE INTERFACE QUANTUM DOTS . . 123 3.4.1.1
ULTRAFAST OPTICAL NONLINEARITIES OF SINGLE IN- TERFACE QUANTUM DOTS 123
3.4.1.2 OPTICAL STARK EFFECT AND RABI OSCILLATIONS IN A QUANTUM DOT:
ULTRAFAST CONTROL OF SINGLE EXCITON POLARIZATIONS 128 3.4.2 COHERENT
CONTROL IN SINGLE SELF-ASSEMBLED QUANTUM DOTS 138 3.5 OUTLOOK 143 4.
FEW-PARTICLE EFFECTS IN SEMICONDUCTOR MACROATOMS/MOLECULES 151 CONTENTS
IX 4.1 INTRODUCTION 151 4.2 EXCITONS 152 4.2.1 SEMICONDUCTORS OF HIGHER
DIMENSION 152 4.2.2 SEMICONDUCTOR QUANTUM DOTS 153 4.2.2.1 WEAK
CONFINEMENT REGIME 153 4.2.2.2 STRONG CONFINEMENT REGIME 154 4.2.3 SPIN
STRUCTURE 155 4.3 BIEXCITONS 157 4.3.1 WEAK CONFINEMENT REGIME 157 4.3.2
STRONG CONFINEMENT REGIME 158 4.4 FEW-PARTICLE STATES 159 4.4.1 MULTI
EXCITONS 160 4.4.2 MULTI-CHARGED EXCITONS 161 4.4.3 CONFIGURATION
INTERACTIONS 161 4.5 OPTICAL SPECTROSCOPY 162 4.5.1 EXCITONS AND
BIEXCITONS 163 4.5.1.1 WEAK CONFINEMENT REGIME 163 4.5.1.2 STRONG
CONFINEMENT REGIME 164 4.5.2 MULTI EXCITONS 165 4.5.3 MULTI-CHARGED
EXCITONS 167 4.6 INTER-DOT COUPLING: TUNNELING VS. COULOMB CORRELATIONS
. . 167 4.7 INTER-DOT COUPLING: ROLE OF THE ELECTRIC FIELD 175 5.
ELECTRON-PHONON INTERACTION IN SEMICONDUCTOR QUANTUM DOTS 183 5.1
INTRODUCTION 183 5.2 ENERGY RELAXATION IN BULK AND QUANTUM WELL
STRUCTURES . 185 5.3 MAGNETO-ABSORPTION IN QUANTUM DOTS: THE EVIDENCE
OFPOLARONS 192 5.4 ENERGY RELAXATION IN THE POLARON FRAMEWORK 207 5.5
EXCITONIC POLARONS IN QUANTUM DOTS 209 5.6 DIAGONAL NON-PERTURBATIVE
INTERACTION BETWEEN ELECTRONS AND ACOUSTIC PHONONS 212 5.7 CONCLUSIONS
215 6. PHONON-INDUCED DECOHERENCE IN SEMICONDUCTOR QUANTUM DOTS 221 6.1
INTRODUCTION 221 6.2 MODEL FOR PHONON-INDUCED PURE DEPHASING 224 X
SEMICONDUCTOR MACROATOMS: BASIC PHYSICS AND QUANTUM-DEVICE APPLICATIONS
6.3 ANALYTICAL RESULTS FOR EXCITATIONS WITH ULTRAFAST PULSES . . 226
6.3.1 LINEAR SINGLE-DOT SPECTRA 227 6.3.2 THE INITIAL DECAY OF
FOUR-WAVE-MIXING SIGNALS 230 6.3.3 IMPACT OF PURE DEPHASING ON
ELECTRONIC AND PHONONIC OCCUPATIONS 234 6.4 INFLUENCES OF TEMPORAL AND
SPECTRAL PROPERTIES OF THE LASER EXCITATION ON THE DECOHERENCE 237 6.4.1
PHONON-INDUCED DAMPING OF RABI OSCILLATIONS IN QUAN- TUM DOTS 237 6.4.2
OPTIMAL GATING STRATEGY: A TRADE-OFF BETWEEN DIFFERENT TYPES OF
DECOHERENCE 241 6.5 CONCLUSIONS 244 7. ALL-OPTICAL SCHEMES FOR QUANTUM
INFORMATION PROCESSING WITH SEMICONDUCTOR MACROATOMS 249 7.1
INTRODUCTION 249 7.2 ALL-OPTICAL QUANTUM INFORMATION/COMPUTATION WITH
SEMI- CONDUCTOR MACROATOMS 252 7.2.1 SINGLE-DOT ENCODING SCHEMES 252
7.2.2 COUPLED-DOT ENCODING SCHEMES 257 7.2.2.1 GAAS-BASED QUANTUM
HARDWARE 257 7.2.2.2 GAN-BASED QUANTUM HARDWARE 262 7.2.3 COMBINATION OF
CHARGE AND SPIN DEGREES OF FREEDOM . 268 7.2.3.1 ARTIFICIAL MOLECULES AS
QUBITS AND RAMAN ADI- ABATIC PASSAGES FOR THE OPTICAL GATING . 271
7.3 SUMMARY AND CONCLUSIONS 278 8. NOVEL DEVICES FOR THE MEASUREMENT OF
ELECTRONIC STATES IN SEMICONDUCTOR QUANTUM DOTS 283 8.1 INTRODUCTION 283
8.2 FIELD-INDUCED EXCITON-EXCITON COUPLING IN SEMICONDUCTOR QUANTUM DOTS
WITH NO INTRINSIC BIAS 286 8.3 MODELING FEW PARTICLE INTERACTIONS IN
QUANTUM DOTS WITH INTRINSIC BIAS 294 8.3.1 ENGINEERING ELECTRONIC
STRUCTURE AND OPTICAL SPECTRUM IN COUPLED GAN QUANTUM DOTS 294 8.3.2
SEMI-ANALYTICAL MODEL 297 8.3.2.1 SINGLE EXCITON SYSTEM 298 CONTENTS XI
8.3.2.2 BIEXCITON SYSTEM 299 8.4 SEMICONDUCTOR DOUBLE QUANTUM DOT AS
STORAGE QUBIT . . . 303 8.4.1 DEFINITION 303 8.4.2 MEASUREMENT USING A
STIRAP PROCESS 305 8.4.2.1 FAILURE OF THE ADIABATIC CONDITION 308
8.4.2.2 FAILURE OF THE ENERGY CONSERVATION REQUIREMENT 310 8.5
ALL-OPTICAL READ-OUT DEVICE 311 INDEX 317 |
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| publisher | Imperial College Press |
| record_format | marc |
| spelling | Semiconductor macroatoms basic physics and quantum-device applications ed. by Fausto Rossi quantum device London Imperial College Press 2005 XI, 319 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Points quantiques Semiconducteurs Quantum dots Semiconductors Quantenpunkt (DE-588)4263396-5 gnd rswk-swf Halbleiter (DE-588)4022993-2 gnd rswk-swf Halbleiter (DE-588)4022993-2 s Quantenpunkt (DE-588)4263396-5 s DE-604 Rossi, Fausto Sonstige oth GBV Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014782214&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Semiconductor macroatoms basic physics and quantum-device applications Points quantiques Semiconducteurs Quantum dots Semiconductors Quantenpunkt (DE-588)4263396-5 gnd Halbleiter (DE-588)4022993-2 gnd |
| subject_GND | (DE-588)4263396-5 (DE-588)4022993-2 |
| title | Semiconductor macroatoms basic physics and quantum-device applications |
| title_alt | quantum device |
| title_auth | Semiconductor macroatoms basic physics and quantum-device applications |
| title_exact_search | Semiconductor macroatoms basic physics and quantum-device applications |
| title_exact_search_txtP | Semiconductor macroatoms basic physics and quantum-device applications |
| title_full | Semiconductor macroatoms basic physics and quantum-device applications ed. by Fausto Rossi |
| title_fullStr | Semiconductor macroatoms basic physics and quantum-device applications ed. by Fausto Rossi |
| title_full_unstemmed | Semiconductor macroatoms basic physics and quantum-device applications ed. by Fausto Rossi |
| title_short | Semiconductor macroatoms |
| title_sort | semiconductor macroatoms basic physics and quantum device applications |
| title_sub | basic physics and quantum-device applications |
| topic | Points quantiques Semiconducteurs Quantum dots Semiconductors Quantenpunkt (DE-588)4263396-5 gnd Halbleiter (DE-588)4022993-2 gnd |
| topic_facet | Points quantiques Semiconducteurs Quantum dots Semiconductors Quantenpunkt Halbleiter |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=014782214&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT rossifausto semiconductormacroatomsbasicphysicsandquantumdeviceapplications AT rossifausto quantumdevice |