Verfügbarkeit: Quantum optics with semiconductor nanostructures

Quantum optics with semiconductor nanostructures:

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Format:	Buch
Sprache:	English
Veröffentlicht:	Oxford [u.a.] Woodhead Publ. 2012
Ausgabe:	1. publ.
Schriftenreihe:	Woodhead publishing series in electronic and optical materials 28
Schlagworte:	Quantum optics Nonlinear optics Nanostructures / Optical properties Quantenoptik Nanostruktur Halbleiter
Online-Zugang:	Inhaltsverzeichnis Klappentext
Beschreibung:	Includes bibliographical references and index
Beschreibung:	XXIV, 577 S. Ill., graph. Darst.
ISBN:	0857092324 9780857092328

Internformat

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Datensatz im Suchindex

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adam_text	Contents Contributor contact details xiii Woodhead Publishing Series in Electronic and Optical Materials xix Preface xxiii Part I Single quantum dot systems 1 1 Resonance fluorescence emission from single semiconductor quantum dots coupled to high-quality microcavities 3 S. M. Ulrich. A. Ulhaq and P. Michler. University of Stuttgart. Germany 1.1 Introduction 3 1.2 Emitter state preparation in single semiconductor quantum dots: role of dephasing 5 1.3 Resonance fluorescence from a single semiconductor quantum dot 9 1.4 Dephasing of Mollow triplet sideband emission from a quantum dot in a microcavity 24 1.5 The phenomenon of non-resonant quantum dot-cavity coupling 30 1.6 Conclusion 40 1.7 Acknowledgments 41 1.8 References 41 2 Quantum optics with single quantum dots in photonic crystal cavities 46 A. Majumdar. M. Bajcsy. К. Rivoire. S. Buckley, A. Faraon, E. D. Kim. D. Englund. J. Vu čković. Stanford University, USA 2.1 Introduction 46 2.2 Integrated, solid-state quantum optics platform: InAs quantum dots (QDs) and photonic crystal nanocavities 47 ©Woodhead Publishing Limited, 2012 vi Contents 2.3 Photon blockade and photon-assisted tunneling 52 2.4 Fast, electrical control of a single quantum dot-cavity system 57 2.5 Phonon-mediated off-resonant interaction in a quantum dot-cavity system 63 2.6 Quantum photonic interfaces between InAs quantum dots and telecom wavelengths 70 2.7 Future trends and conclusions 73 2.8 Acknowledgments 73 2.9 References 73 3 Modeling single quantum dots in microcavities 78 С Gies, M. Florian and F. Jahnke. University of Bremen. Germany and P. Gartner. University of Bremen. Germany and National Institute of Materials Physics. Bucharest-Magurele. Romania 3.1 Introduction 78 3.2 Building blocks of the coupled microcavity-quantum dot system 79 3.3 Theoretical description of the single-quantum dot-microcavity system 84 3.4 Numerical methods and characteristic quantities 88 3.5 Competing electronic configurations and input/output characteristics of a single-quantum dot laser 93 3.6 Sources of dephasing and spectral linewidths 103 3.7 Analogy to the two-level system 107 3.8 Conclusions 109 3.9 References 111 Partii Nanolasers with quantum dot emitters 115 4 Highly efficient quantum dot micropillar lasers 117 S. Reitzenstein, Technical University Berlin, Germany and A. Forchel, University of Würzburg, Germany 4.1 Introduction 117 4.2 Theoretical description of high-/3 microlasers 118 4.3 Fabrication of quantum dot (QD) micropillar lasers 123 4.4 Optical characterization and pre-selection of QD micropillars for lasing studies 127 4.5 Lasing in optically pumped QD micropillar lasers 131 4.6 Lasing in electrically pumped QD micropillar lasers 141 ©Woodhead Publishing Limited, 2012 Contents vii 4.7 Future trends and conclusions 149 4.8 Acknowledgments 149 4.9 References 150 5 Photon correlations in semiconductor nanostructures 154 M. ABmann and M. Bayer, Technische Universität Dortmund, Germany 5.1 Introduction 154 5.2 Theoretical description of light-matter coupling 155 5.3 Photon statistics 163 5.4 Experimental approaches to photon correlation measurements 167 5.5 Correlation measurements on semiconductor nanostructures 170 5.6 Future trends and conclusions 182 5.7 References 182 6 Emission properties of photonic crystal nanolasers 186 S. Strauf, Stevens Institute of Technology. USA 6.1 Introduction 186 6.2 Design of photonic crystal (PC) nanocavities 188 6.3 Optical emission properties of quantum dots (QDs) in PC nanocavities 195 6.4 Signatures of lasing in PC nanolasers 202 6.5 Detuning experiments: the quest for the gain mechanism 206 6.6 Conclusions 214 6.7 Acknowledgments 215 6.8 References 215 7 Deformed wavelength-scale microdisk lasers with quantum dot emitters 225 J-B. Shim, A. Eberspächer and J.Wiersig, Universität Magdeburg, Germany, J. Unterhinmnghofen, OEC AG, Germany, Q. H. Song, Harbin Institute for Technology, China, L. Ge, Princeton University, USA, H. Cao and A. D. Stone, Yale University, USA 7.1 Introduction 225 7.2 Ray-wave correspondence in microdisk cavities 229 7.3 Modified ray-wave correspondence in wavelength-scale cavities 231 7.4 Wavelength-scale asymmetric resonant microcavity lasers 239 ©Woodhead Publishing Limited, 2012 viii Contents 7.5 Conclusions 248 7.6 Acknowledgment 249 7.7 References 249 Part III Light-matter interaction in semiconductor nanostructures 253 8 Photon statistics and entanglement in phonon-assisted quantum light emission from semiconductor quantum dots 255 A. Cârmele. M-R. Dachner, J. Kabuss, M. Richter, F. Milde and A. Knorr, Technical University Berlin, Germany 8.1 Introduction 255 8.2 Incoherently driven emission: phonon-assisted single quantum dot luminescence 258 8.3 Entanglement analysis of a quantum dot biexciton cascade 264 8.4 Coherently driven emission 269 8.5 Equations of motion 272 8.6 Emission dynamics 275 8.7 Emission from strongly coupled quantum dot cavity quantum electrodynamics 279 8.8 Phonon-assisted polariton signatures 283 8.9 Phonon-enhanced antibunching 285 8.10 Conclusions 289 8.11 References 289 9 Luminescence spectra of quantum dots in microcavities 293 F. P. Lalssy, Walter Schottky Institut, Germany, E. Del Valle, TU München, Germany, A. Laucht, Walter Schottky Institut, Germany, A. Gonzalez-Tudela, Universidad Autónoma de Madrid, Spain, M. Kaniber and J. J. Finley, Walter Schottky Institut, Germany and С Tejedor, Universidad Autónoma de Madrid, Spain 9.1 Introduction 293 9.2 The Jaynes-Cummings model 295 9.3 Luminescence spectra 300 9.4 Experimental implementations and observations 309 9.5 Luminescence spectra in the nonlinear regime 315 9.6 Effects of pure dephasing 319 9.7 Lasing 322 9.8 Conclusions and future trends 325 ©Woodhead Publishing Limited, 2012 Contents їх 9.9 Acknowledgements 326 9.10 References 326 10 Photoluminescence from a quantum dot-cavity system 332 G. Tarel and V. Savona, École Polytechnique Fédérale de Lausanne (EPFL), Switzerland, M. Winger, T. Volz and A. Imamoglu, Eidgenössische Technische Hochschule Zürich (ETHZ), Switzerland 10.1 Introduction: solid-state cavity quantum electrodynamics (CQED) systems with quantum dots (QDs) 332 10.2 Cavity feeding: influence of multiexcitonic states at large detuning 337 10.3 Model for a QD-cavity system 340 10.4 Radiative processes revisited 348 10.5 Cavity feeding: Monte Carlo model 350 10.6 Cavity feeding: influence of acoustic phonons at small detuning 357 10.7 Conclusions 363 10.8 Acknowledgements 364 10.9 References 364 11 Quantum optics with quantum-dot and quantum-well systems 369 L. Schneebeli, University of Arizona, USA, M. Kira and S.W. Koch, Philipps-Universität Marburg. Germany 11.1 Introduction 369 11.2 Quantum-optical correlations 370 11.3 Quantum emission of strong-coupling quantum dots 377 11.4 Quantum-optical spectroscopy 384 11.5 Future trends and conclusions 390 11.6 References 390 Part IV Semiconductor cavity quantum electrodynamics (QED) 393 12 All-solid-state quantum optics employing quantum dots in photonic crystals 395 P. Lodahl, University of Copenhagen. Denmark 12.1 Introduction 395 12.2 Light-matter interaction in photonic crystals 396 12.3 Disordered photonic crystal waveguides 409 ©Woodhead Publishing Limited, 2012 χ Contents 12.4 Cavity quantum electrodynamics in disordered photonic crystal waveguides 413 12.5 Future trends and conclusions 417 12.6 Acknowledgments 418 12.7 References 418 13 One-dimensional photonic crystal nanobeam cavities 421 J. Hendrickson, Air Force Research Laboratory. USA. A. Homyk and A. Scherer, California Institute of Technology. USA,T. Alasaarela, A. Säynätjoki, and S. Honkanen. Aalto University School of Electrical Engineering. Finland, B. С Richards, Emcore Photovoltaics, USA, J-Y. Kim and Y-H. Lee, Korea Advanced Institute of Science and Technology. Korea, R. Gibson, M. Gehl. J. D. Olitzky, S. Zandbergen, H. M. GiBBS and G. Khitrova, University of Arizona. USA 13.1 Introduction 421 13.2 Design, fabrication and computation 426 13.3 Passive photonic crystal cavity measurement technique 429 13.4 Atomic layer deposition (ALD) technique and history 432 13.5 Experimental results of ALD coated photonic crystal nanobeam cavities 436 13.6 Conclusions 441 13.7 Future trends 441 13.8 Acknowledgments 442 13.9 References 442 14 Growth of II-VI and Ill-nitride quantum-dot microcavity systems 447 С Kruse, S. Figge and D. Hommel, University of Bremen, Germany 14.1 Introduction 447 14.2 Growth of II-VI quantum dots: CdSe and CdTe 450 14.3 II-VI Bragg reflectors lattice matched to GaAs and ZnTe 456 14.4 Microcavities containing CdSe or CdTe quantum dots 463 14.5 Formation of InGaN quantum dots 465 14.6 Nitride-based Bragg reflectors 471 14.7 Microcavities containing InGaN quantum dots 473 14.8 Preparation of micropillars employing focused ion beam etching 475 14.9 Conclusions 477 14.10 References 478 ©Woodhead Publishing Limited, 2012 Contents xi PartV Ultrafast phenomena 485 15 Femtosecond quantum optics with semiconductor nanostructures 487 R. Bratschitsch, Chemnitz University of Technology, Germany, R. Huber, University of Regensburg, Germany and A. Leitenstorfer, University of Konstanz, Germany 15.1 Introduction 487 15.2 Few-fermion dynamics and single-photon gain in a semiconductor quantum dot 490 15.3 Nanophotonic structures for increased light-matter interaction 497 15.4 Ultrastrong light-matter coupling and sub-cycle switching: towards non-adiabatic quantum electrodynamics 506 15.5 Ultrabroadband terahertz technology - watching light oscillate 508 15.6 Intersubband-cavity polaritons - non-adiabatic switching of ultrastrong coupling 514 15.7 References 522 16 Coherent optoelectronics with quantum dots 528 S. Michaelis de Vasconcellos. S. Gordon, D. Mantei. Υ. Α. Leier, M. Al-Hmoud, W. Quiring and A. Zrenner, Universität Paderborn, Germany 16.1 Introduction 528 16.2 Single quantum dot photodiodes 529 16.3 Exciton qubits in photodiodes 533 16.4 Coherent manipulation of the exciton 536 16.5 Ramsey fringes: control of the qubit phase 543 16.6 Coherent control by optoelectronic manipulation 548 16.7 Future trends and conclusions 554 16.8 Acknowledgements 555 16.9 References 555 Index 561 ©Woodhead Publishing Limited, 2012 WOODHEAD PUBLISHING SERIES IN ELECTRONIC AND OPTICAL MATERIALS An understanding of the interaction between light and matter on a quantum level is of fundamental interest and has many applications in optical technologies. The quantum nature of the interaction has recently attracted great attention for applications of semiconductor nanostructures in quantum information processing. Quantum optics with semiconductor nanostructures is a key guide to the theory, experimental realisation, and future potential of semiconductor nanostructures in the exploration of quantum optics. Part I provides a comprehensive overview of single quantum dot systems, beginning with a look at resonance fluorescence emission. Quantum optics with single quantum dots in nanocavities are explored in detail, before Part II goes on to review nanolasers with quantum dot emitters. Light-matter interaction in semiconductor nanostructures, including photon statistics and photoluminescence, is the focus of Part III, while Part IV explores all-solid- state quantum optics, photonic crystal nanobeam cavities and quantum-dot micropillar cavity systems. Finally, Part V investigates ultrafast phenomena, including femtosecond quantum optics and coherent optoelectronics with quantum dots. With its distinguished editor and international team of expert contributors, Quantum optics with semiconductor nanostructures will be an essential guide for all those involved with the research, development, manufacture and use of semiconductors nanodevices, lasers and optical components, as well as scientists, researchers and students. Frank Jahnke is Professor at the Institute for Theoretical Physics, University of Bremen, Germany, and is internationally known for his research on semiconductor quantum optics. Woodhead Publishing Limited 80 High Street, Sawston Cambridge CB22 3HJ UK ISBN 978-0-85709-232-8 Woodhead Publishing 1S18 Walnut Street 1100 Philadelphia, PA 19102 USA www.woodheadpublishing.com www.woodheadpublishingonline.com WP WOODHEAD PUBLISHING
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spelling	Quantum optics with semiconductor nanostructures ed. by Frank Jahnke 1. publ. Oxford [u.a.] Woodhead Publ. 2012 XXIV, 577 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Woodhead publishing series in electronic and optical materials 28 Includes bibliographical references and index Quantum optics Nonlinear optics Nanostructures / Optical properties Quantenoptik (DE-588)4047990-0 gnd rswk-swf Nanostruktur (DE-588)4204530-7 gnd rswk-swf Halbleiter (DE-588)4022993-2 gnd rswk-swf Halbleiter (DE-588)4022993-2 s Nanostruktur (DE-588)4204530-7 s Quantenoptik (DE-588)4047990-0 s DE-604 Jahnke, Frank Sonstige (DE-588)1048709450 oth Erscheint auch als Online-Ausgabe 978-0-85709-639-5 Woodhead publishing series in electronic and optical materials 28 (DE-604)BV040604945 28 Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025391061&sequence=000003&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis Digitalisierung UB Bayreuth application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=025391061&sequence=000004&line_number=0002&func_code=DB_RECORDS&service_type=MEDIA Klappentext
spellingShingle	Quantum optics with semiconductor nanostructures Woodhead publishing series in electronic and optical materials Quantum optics Nonlinear optics Nanostructures / Optical properties Quantenoptik (DE-588)4047990-0 gnd Nanostruktur (DE-588)4204530-7 gnd Halbleiter (DE-588)4022993-2 gnd
subject_GND	(DE-588)4047990-0 (DE-588)4204530-7 (DE-588)4022993-2
title	Quantum optics with semiconductor nanostructures
title_auth	Quantum optics with semiconductor nanostructures
title_exact_search	Quantum optics with semiconductor nanostructures
title_full	Quantum optics with semiconductor nanostructures ed. by Frank Jahnke
title_fullStr	Quantum optics with semiconductor nanostructures ed. by Frank Jahnke
title_full_unstemmed	Quantum optics with semiconductor nanostructures ed. by Frank Jahnke
title_short	Quantum optics with semiconductor nanostructures
title_sort	quantum optics with semiconductor nanostructures
topic	Quantum optics Nonlinear optics Nanostructures / Optical properties Quantenoptik (DE-588)4047990-0 gnd Nanostruktur (DE-588)4204530-7 gnd Halbleiter (DE-588)4022993-2 gnd
topic_facet	Quantum optics Nonlinear optics Nanostructures / Optical properties Quantenoptik Nanostruktur Halbleiter
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