Verfügbarkeit: Quantum Photonics

Quantum Photonics:

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Bibliographische Detailangaben
1. Verfasser:	Pearsall, Thomas P. (VerfasserIn)
Format:	Elektronisch E-Book
Sprache:	English
Veröffentlicht:	Cham Springer [2017]
Schriftenreihe:	Graduate Texts in Physics
Schlagworte:	Physics Quantum optics Nanoscale science Nanoscience Nanostructures Microwaves Optical engineering Optical materials Electronic materials Quantum Optics Optics, Lasers, Photonics, Optical Devices Microwaves, RF and Optical Engineering Optical and Electronic Materials Nanoscale Science and Technology Photon Quantenmechanisches System Quantenoptik Lehrbuch
Online-Zugang:	TUM01 UBM01 UBT01 Volltext Inhaltsverzeichnis
Beschreibung:	1 Online-Ressource (XVII, 292 p. 130 illus., 39 illus. in color)
ISBN:	9783319551449
DOI:	10.1007/978-3-319-55144-9

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Datensatz im Suchindex

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adam_text	Titel: Quantum photonics Autor: Pearsall, Thomas P Jahr: 2017 Contents 1 Electrons................................................................................................1 1.1 Introduction..................................................................................1 1.2 de Broglie s Second Idea..............................................................3 1.3 The Pauli Exclusion Principle........................................................8 1.4 Fermi-Dirac Statistics....................................................................9 1.5 The Schrodinger Equation .. .......................................................11 1.6 de Broglie s First Idea..................................................................12 1.7 Summary......................................................................................15 Exercises..................................................................................................15 References................................................................................................16 2 Photons..................................................................................................19 2.1 Introduction..................................................................................19 2.1.1 Photon Properties............................................................20 2.1.2 Brief History of Photons..................................................21 2.2 Bose Einstein Statistics..................................................................24 2.3 Propagation of Photons..................................................................26 2.3.1 Maxwell s Equations........................................................26 2.3.2 Reflection and Transmission: Fresnel s Equations............30 2.3.3 Single Photon Behavior....................................................33 2.4 Wave Behavior of Photons............................................................34 2.4.1 Computational Examples..................................................34 2.4.2 Young s Double Slit Experiment......................................38 2.4.3 Single Photons..................................................................41 2.4.4 The Copenhagen Interpretation of Quantum Measurements..................................................................46 2.5 Quantum Entanglement..................................................................47 2.6 Summary......................................................................................48 Exercises..................................................................................................49 References................................................................................................55 3 Free Electron Behavior in Semiconductor Heterostructures ..... 3.1 Introduction....................................... 3.2 The Schrodinger Equation............................ 3.3 Quantized Energy Levels for Electrons in an Infinitely Deep Potential Well...................................... 3.3.1 Potential Well with Infinitely High Boundaries...... 3.3.2 Boundary Conditions.................... ...... 3.4 Electrons Confined by a Square Potential Well with Finite Barriers........................................... 3.4.1 Boundary Conditions.......................... 3.4.2 Discussion of Results for Quantization of Energy Levels in a Square Potential Well................ 3.4.3 Energy Levels in a Quantum Well in the Presence of an Electric Field: The Quantum-Confined Stark Effect. .. 3.5 Quantum-Mechanical Tunneling........................ 3.6 Tunneling in pn-Junction Diodes....................... 3.7 Tunneling in the Presence of Multiple Barriers............. 3.8 Tunneling Time.................................... 3.8.1 Wavepackets................................ 3.8.2 Detection of a Wavepacket Representing a Single Particle.................................... 3.8.3 Relative Time of Flight........................ 3.8.4 Analysis of the Wavepacket: Phase-Delay Tunneling Time...................................... 3.8.5 Tunneling Time: Some Conclusions.............. 3.9 Summary......................................... Exercises............................................... Appendix: Source Code for Calculation of Sequential Tunneling Using MATLAB......................................................................................106 References................................................................................................108 4 Electronic Energy Levels in Crystalline Semiconductors....................111 4.1 Introduction..............................................111 4.2 Periodicity....................................................................................112 4.3 Periodicity and Electron Energy States..........................................114 4.4 Brillouin Zones..............................................................................117 4.5 Electronic Bandstructure of Specific Materials: Integrating the Crystal Potential.......................... 123 4.5.1 Introduction................................... 123 4.5.2 Schrodinger s Equation in a Periodic Potential................124 4.6 Energy Bandstructure of Silicon.......................... 127 4.7 Energy Bandstructure of Germanium...................... 130 4.8 Energy Bandstructure of Gallium Arsenide....................................133 4.9 Materials with Multiple Electrons........................137 57 57 58 58 58 59 61 63 65 66 67 75 81 86 87 88 93 96 101 102 4.9.1 The Hohenberg-Kohn Theorem and Density Functional Theory..............................................................................139 4.9.2 The Kohn-Sham Equations..............................................142 4.9.3 Using Density Functional Theory to Analyze Real Systems............................................................................143 4.10 Summary......................................................................................144 Exercises..................................................................................................145 Appendix: Source Code for Bandstructure Calculation Using MATLAB......................................................................................147 References................................................................................................150 5 The Harmonic Oscillator and Quantization of Electromagnetic Fields......................................................................................................151 5.1 Introduction..................................................................................151 5.2 The Harmonic Oscillator................................................................152 5.3 Raising and Lowering Operators..................................................154 5.4 Quantization of the Electromagnetic Fields....................................156 5.5 Spontaneous Parametric Down-Conversion....................................159 5.6 Two-Photon Interference................................................................165 5.7 Summary......................................................................................172 Exercises..................................................................................................173 References................................................................................................174 6 Entanglement and Non-locality of Quantum Photonics......................177 6.1 Introduction..................................................................................177 6.2 The Einstein, Podolsky Rosen Paradox: Is the Description of Reality by Quantum Mechanics Complete?..............................179 6.2.1 Entangled States in Quantum Mechanics..........................179 6.2.2 Measurements of Photon Polarization..............................182 6.2.3 Joint Polarization Measurements......................................183 6.3 Bell s Theorem..............................................................................186 6.3.1 John S. Bell and the Completeness of Quantum Mechanics........................................................................186 6.3.2 Hidden Variables in Quantum Mechanics........................187 6.3.3 Experiments......................................................................191 6.4 More About Bell s Theorem—Loopholes, Bohm—deBroglie and Free-Will................................................................................194 6.4.1 Bell Test Experiments—Loopholes..................................195 6.4.2 Locality, Reality and Free-Choice....................................197 6.4.3 Free-Will..........................................................................197 6.5 Summary......................................................................................198 Exercises..................................................................................................199 References................................................................................................200 7 Lasers......................................................................201 7.1 Introduction.........................................201 7.2 Spontaneous and Stimulated Emission.....................202 7.3 Laser Action...............................; •......206 7.3.1 Analysis of Spontaneous and Stimulated Emission A Macroscopic Description..................................................206 7.3.2 Optical Gain....................................................................209 7.3.3 N2 Ni: Population Inversion........................................212 7.4 Semiconductor Diode Lasers.....................................215 7.4.1 Population Inversion in Semiconductor Materials............216 7.4.2 Optical Feedback—Making a Laser..................................218 7.4.3 Laser Threshold................................................................221 7.5 Laser Engineering..........................................................................222 7.5.1 Heterostructure Lasers......................................................222 7.5.2 Optical Confinement—Waveguiding................................224 7.5.3 Buried Heterostructure Lasers..........................................226 7.5.4 Separate Confinement of Photons and Electrons..............228 7.5.5 The Quantum Well Laser................................................232 7.6 Summary......................................................................................233 Exercises..................................................................................................235 References................................................................................................235 8 Quantum Cascade Lasers......................................................................237 8.1 Introduction..................................................................................237 8.2 Requirements for an Intersubband Laser........................................240 8.3 Injector Region..............................................................................241 8.4 Electron Evacuation from the Lower Level..................................243 8.5 Photon Emission Region................................................................250 8.5.1 Introduction......................................................................250 8.5.2 Intersubband Optical Transitions......................................250 8.5.3 Spontaneous and Stimulated Emission..............................255 8.6 Current-Voltage and Light-Current Relationship............................255 8.6.1 Rate Equations................................................................256 8.7 Interband Cascade Lasers..............................................................258 8.7.1 ICL Active Region Design..............................................259 8.7.2 Hole Injection by Tunneling............................................260 8.8 Summary......................................................................................261 Exercises..................................................................................................262 References..........................................................................264 9 Non-linear Optics: Second-Harmonic Generation and Parametric Oscillation....................................................................267 9.1 Introduction........................................................267 9.2 Non-linear Response of Optical Materials......................................268 9.3 Electromagnetic Wave Propagation in Non-linear Materials..... 273 9.3.1 Application to Second Harmonic Generation.......... 277 9.3.2 Application to Parametric Amplification............. 280 9.4 Summary........................................... 283 Exercises..................................................................................................285 References................................................................................................285 Index............................................................................................................287
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spelling	Pearsall, Thomas P. Verfasser aut Quantum Photonics Thomas P. Pearsall Cham Springer [2017] 1 Online-Ressource (XVII, 292 p. 130 illus., 39 illus. in color) txt rdacontent c rdamedia cr rdacarrier Graduate Texts in Physics Physics Quantum optics Nanoscale science Nanoscience Nanostructures Microwaves Optical engineering Optical materials Electronic materials Quantum Optics Optics, Lasers, Photonics, Optical Devices Microwaves, RF and Optical Engineering Optical and Electronic Materials Nanoscale Science and Technology Photon (DE-588)4045922-6 gnd rswk-swf Quantenmechanisches System (DE-588)4300046-0 gnd rswk-swf Quantenoptik (DE-588)4047990-0 gnd rswk-swf 1\p (DE-588)4123623-3 Lehrbuch gnd-content Photon (DE-588)4045922-6 s Quantenmechanisches System (DE-588)4300046-0 s 2\p DE-604 Quantenoptik (DE-588)4047990-0 s 3\p DE-604 Erscheint auch als Druck-Ausgabe 978-3-319-55142-5 https://doi.org/10.1007/978-3-319-55144-9 Verlag URL des Erstveröffentlichers Volltext HBZ Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029737979&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 3\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Pearsall, Thomas P. Quantum Photonics Physics Quantum optics Nanoscale science Nanoscience Nanostructures Microwaves Optical engineering Optical materials Electronic materials Quantum Optics Optics, Lasers, Photonics, Optical Devices Microwaves, RF and Optical Engineering Optical and Electronic Materials Nanoscale Science and Technology Photon (DE-588)4045922-6 gnd Quantenmechanisches System (DE-588)4300046-0 gnd Quantenoptik (DE-588)4047990-0 gnd
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title	Quantum Photonics
title_auth	Quantum Photonics
title_exact_search	Quantum Photonics
title_full	Quantum Photonics Thomas P. Pearsall
title_fullStr	Quantum Photonics Thomas P. Pearsall
title_full_unstemmed	Quantum Photonics Thomas P. Pearsall
title_short	Quantum Photonics
title_sort	quantum photonics
topic	Physics Quantum optics Nanoscale science Nanoscience Nanostructures Microwaves Optical engineering Optical materials Electronic materials Quantum Optics Optics, Lasers, Photonics, Optical Devices Microwaves, RF and Optical Engineering Optical and Electronic Materials Nanoscale Science and Technology Photon (DE-588)4045922-6 gnd Quantenmechanisches System (DE-588)4300046-0 gnd Quantenoptik (DE-588)4047990-0 gnd
topic_facet	Physics Quantum optics Nanoscale science Nanoscience Nanostructures Microwaves Optical engineering Optical materials Electronic materials Quantum Optics Optics, Lasers, Photonics, Optical Devices Microwaves, RF and Optical Engineering Optical and Electronic Materials Nanoscale Science and Technology Photon Quantenmechanisches System Quantenoptik Lehrbuch
url	https://doi.org/10.1007/978-3-319-55144-9 http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=029737979&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT pearsallthomasp quantumphotonics

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