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Quantum optics with semiconductor nanostructures

Author: Frank Jahnke
Publisher: Oxford : WP, Woodhead Publishing, 2012.
Series: Woodhead Publishing series in electronic and optical materials, no. 28.
Edition/Format:   Print book : English
Summary:

Quantum optics with semiconductor nanostructures is a key guide to the theory, application and potential of semiconductor nanostructures in the exploration of quantum optics.

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Document Type: Book
All Authors / Contributors: Frank Jahnke
ISBN: 9780857092328 0857092324
OCLC Number: 769430567
Description: xxiv, 577 pages : illustrations ; 24 cm.
Contents: pt. 1. Single quantum dot systems ; Resonance fluorescence emission from single semiconductor quantum dots coupled to high-quality microcavities / S.M. Ulrich, A. Ulhaq and P. Michler, University of Stuttgart, Germany ; Quantum optics with single quantum dots in photonic crystal cavities / A. Majumdar, M. Bajcsky, K. Rivoire, S. Buckley, A. Faraon, E.D. Kim, D. Englund, J. Vučković, Stanford University, USA ; Modelling single quantum dots in microcavities / C. 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 --
pt. 2. Nanolasers with quantum dot emitters ; Highly efficient quantum dot micropillar lasers / S. Reitzenstein, Technical University Berlin, Germany and A. Forchel, University of Wúrzburg, Germany ; Photon correlations in semiconductor nanostructures / M. Assmann and M. Bayer, Technische Universität Dortmund, Germany ; Emission properties of photonic crystal nanolasers / S. Strauf, Stevens Institute of Technology, USA ; Deformed wavelength-scale microdisk lasers with quantum dot emitters / J-B. Shim, A. Eberspächer and J. Wiersig, Universität Magdeburg, Germany, J. Unterhinninghofen, 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 --
pt. 3. Light-matter interaction in semiconductor nanostructures ; Photon statistics and entanglement in phonon-assisted quantum light emission from semiconductor quantum dots / A. Carmele, M-R. Dachner, J. Kabuss, M. Richter, F. Milde and A. Knorr, Technical University Berlin, Germany ; Luminescence spectra of quantum dots in microcavities / F.P. Laussy, 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 C. Tejedor, Universidad Autónoma de Madrid, Spain ; Photoluminescence from a quantum-dot-cavity system / 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 ; Quantum optics with quantum-dot and quantum-well systems / L. Schneebeli, University of Arizona, USA, M. Kira and S.W. Koch, Philipps-Universität Marburg, Germany --
pt. 4. Semiconductor cavity quantum electrodynamics (QED) ; All-solid-state quantum optics employing quantum dots in photonic crystals / P. Lodahl, University of Copenhagen, Denmark ; One-dimensional photonic crystal nanobeam cavities / 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.C. 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 ; Growth of II-VI and III-nitride quantum-dot microcavity systems / C. Kruse, S. Figge and D. Hommel, University of Bremen, Germany --
pt. 5. Ultrafast phenomena ; Femtosecond quantum optics with semiconductor nanostructures / R. Bratschitsch, Chemnitz University of Technology, Germany, R. Huber, University of Regensburg, Germany and A. Leitenstorfer, University of Konstanz, Germany ; Coherent optoelectronics with quantum dots / S. Michaelis de Vasconcellos, S. Gordon, D. Mantei, Y.A. Leier, M. al-Hmoud, W. Quiring and A. Zrenner, Universität Paderborn, Germany.
Series Title: Woodhead Publishing series in electronic and optical materials, no. 28.
Responsibility: edited by Frank Jahnke.

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Single quantum dot systems ; Resonance fluorescence emission from single semiconductor quantum dots coupled to high-quality microcavities \/ S.M. Ulrich, A. Ulhaq and P. Michler, University of Stuttgart, Germany ; Quantum optics with single quantum dots in photonic crystal cavities \/ A. Majumdar, M. Bajcsky, K. Rivoire, S. Buckley, A. Faraon, E.D. Kim, D. Englund, J. Vu\u010Dkovi\u0107, Stanford University, USA ; Modelling single quantum dots in microcavities \/ C. 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 -- pt. 2. Nanolasers with quantum dot emitters ; Highly efficient quantum dot micropillar lasers \/ S. Reitzenstein, Technical University Berlin, Germany and A. Forchel, University of W\u00FArzburg, Germany ; Photon correlations in semiconductor nanostructures \/ M. Assmann and M. Bayer, Technische Universit\u00E4t Dortmund, Germany ; Emission properties of photonic crystal nanolasers \/ S. Strauf, Stevens Institute of Technology, USA ; Deformed wavelength-scale microdisk lasers with quantum dot emitters \/ J-B. Shim, A. Ebersp\u00E4cher and J. Wiersig, Universit\u00E4t Magdeburg, Germany, J. Unterhinninghofen, 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 -- pt. 3. Light-matter interaction in semiconductor nanostructures ; Photon statistics and entanglement in phonon-assisted quantum light emission from semiconductor quantum dots \/ A. Carmele, M-R. Dachner, J. Kabuss, M. Richter, F. Milde and A. Knorr, Technical University Berlin, Germany ; Luminescence spectra of quantum dots in microcavities \/ F.P. Laussy, Walter Schottky Institut, Germany, E. Del Valle, TU M\u00FCnchen, Germany, A Laucht, Walter Schottky Institut, Germany, A. Gonzalez-Tudela, Universidad Aut\u00F3noma de Madrid, Spain, M. Kaniber and J.J. Finley, Walter Schottky Institut, Germany and C. Tejedor, Universidad Aut\u00F3noma de Madrid, Spain ; Photoluminescence from a quantum-dot-cavity system \/ G. Tarel and V. Savona, \u00C9cole Polytechnique F\u00E9d\u00E9rale de Lausanne (EPFL), Switzerland, M. Winger, T. Volz and A. Imamoglu, Eidgen\u00F6ssische Technische Hochschule Z\u00FCrich (ETHZ), Switzerland ; Quantum optics with quantum-dot and quantum-well systems \/ L. Schneebeli, University of Arizona, USA, M. Kira and S.W. Koch, Philipps-Universit\u00E4t Marburg, Germany -- pt. 4. Semiconductor cavity quantum electrodynamics (QED) ; All-solid-state quantum optics employing quantum dots in photonic crystals \/ P. Lodahl, University of Copenhagen, Denmark ; One-dimensional photonic crystal nanobeam cavities \/ J. Hendrickson, Air Force Research Laboratory, USA, A. Homyk and A. Scherer, California Institute of Technology, USA, T. Alasaarela, A. S\u00E4yn\u00E4tjoki and S. Honkanen, Aalto University School of Electrical Engineering, Finland, B.C. 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 ; Growth of II-VI and III-nitride quantum-dot microcavity systems \/ C. Kruse, S. Figge and D. Hommel, University of Bremen, Germany -- pt. 5. Ultrafast phenomena ; Femtosecond quantum optics with semiconductor nanostructures \/ R. Bratschitsch, Chemnitz University of Technology, Germany, R. Huber, University of Regensburg, Germany and A. Leitenstorfer, University of Konstanz, Germany ; Coherent optoelectronics with quantum dots \/ S. Michaelis de Vasconcellos, S. Gordon, D. Mantei, Y.A. Leier, M. al-Hmoud, W. Quiring and A. 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