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Quantum Dots Alexander Tartakovskii (University of Sheffield)

Quantum Dots By Alexander Tartakovskii (University of Sheffield)

Quantum Dots by Alexander Tartakovskii (University of Sheffield)

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Summary

A comprehensive review of cutting-edge solid state research, focusing on quantum dot nanostructures, this book features a broad range of techniques for fabrication of these nano-structured semiconductors and control of their quantum properties. It is a valuable resource for graduate students and researchers new to this field.

Quantum Dots Summary

Quantum Dots: Optics, Electron Transport and Future Applications by Alexander Tartakovskii (University of Sheffield)

A comprehensive review of cutting-edge solid state research, focusing on its prominent example - quantum dot nanostructures - this book features a broad range of techniques for fabrication of these nano-structured semiconductors and control of their quantum properties. Written by leading researchers, the book considers advanced III-V and II-VI semiconductor quantum dots (QDs) realized by self-assembly, lithography and chemical synthesis; novel QD structures in nanowires and graphene; and transport and optical methods for control of single QDs. Significant attention is given to manipulation of single spins and control of their magnetic environment, and generation of quantum light emitted by single dots in dielectric cavities and coupled to plasmons in metallic structures. It is a valuable resource for graduate students and researchers new to this field.

Quantum Dots Reviews

'In this book, the reader will find a comprehensive review of QD design and applications written by 69 specialists in the field. Half of the book deals with fabrication methods, while the remaining half summarizes recent results on the control and characterization of QDs by optical techniques. A small part of the book is devoted to several examples for future applications in secure optical communications and linear optics quantum computing. This is a welcome addition to the literature and is suitable as a course material for graduate students. Beyond that, the specific topic of the title makes engaging reading.' Christian Brosseau, Optics and Photonics News

About Alexander Tartakovskii (University of Sheffield)

Alexander Tartakovskii is a Reader in Experimental Semiconductor Physics, Department of Physics and Astronomy, University of Sheffield. He has been working in quantum dot research since 2001, recently with the focus on high-sensitivity nano-NMR in ultra-small nuclear spin ensembles in individual quantum dots.

Table of Contents

Part I. Nanostructure Design and Structural Properties of Epitaxially Grown Quantum Dots and Nanowires: 1. Growth of III/V semiconductor quantum dots C. Schneider, S. Hofling and A. Forchel; 2. Single semiconductor quantum dots in nanowires: growth, optics, and devices M. E. Reimer, N. Akopian, M. Barkelid, G. Bulgarini, R. Heeres, M. Hocevar, B. J. Witek, E. Bakkers and V. Zwiller; 3. Atomic scale analysis of self-assembled quantum dots by cross-sectional scanning tunneling microscopy and atom probe tomography J. G. Keizer and P. M. Koenraad; Part II. Manipulation of Individual Quantum States in Quantum Dots Using Optical Techniques: 4. Studies of the hole spin in self-assembled quantum dots using optical techniques B. D. Gerardot and R. J. Warburton; 5. Resonance fluorescence from a single quantum dot A. N. Vamivakas, C. Matthiesen, Y. Zhao, C.-Y. Lu and M. Atature; 6. Coherent control of quantum dot excitons using ultra-fast optical techniques A. J. Ramsay and A. M. Fox; 7. Optical probing of holes in quantum dot molecules: structure, symmetry, and spin M. F. Doty and J. I. Climente; Part III. Optical Properties of Quantum Dots in Photonic Cavities and Plasmon-Coupled Dots: 8. Deterministic light-matter coupling using single quantum dots P. Senellart; 9. Quantum dots in photonic crystal cavities A. Faraon, D. Englund, I. Fushman, A. Majumdar and J. Vuckovic; 10. Photon statistics in quantum dot micropillar emission M. Asmann and M. Bayer; 11. Nanoplasmonics with colloidal quantum dots V. Temnov and U. Woggon; Part IV. Quantum Dot Nano-Laboratory: Magnetic Ions and Nuclear Spins in a Dot: 12. Dynamics and optical control of an individual Mn spin in a quantum dot L. Besombes, C. Le Gall, H. Boukari and H. Mariette; 13. Optical spectroscopy of InAs/GaAs quantum dots doped with a single Mn atom O. Krebs and A. Lemaitre; 14. Nuclear spin effects in quantum dot optics B. Urbaszek, B. Eble, T. Amand and X. Marie; Part V. Electron Transport in Quantum Dots Fabricated by Lithographic Techniques: III-V Semiconductors and Carbon: 15. Electrically controlling single spin coherence in semiconductor nanostructures Y. Dovzhenko, K. Wang, M. D. Schroer and J. R. Petta; 16. Theory of electron and nuclear spins in III-V semiconductor and carbon-based dots H. Ribeiro and G. Burkard; 17. Graphene quantum dots: transport experiments and local imaging S. Schnez, J. Guettinger, F. Molitor, C. Stampfer, M. Huefner, T. Ihn and K. Ensslin; Part VI. Single Dots for Future Telecommunications Applications: 18. Electrically operated entangled light sources based on quantum dots R. M. Stevenson, A. J. Bennett and A. J. Shields; 19. Deterministic single quantum dot cavities at telecommunication wavelengths D. Dalacu, K. Mnaymneh, J. Lapointe, G. C. Aers, P. J. Poole, R. L. Williams and S. Hughes; Index.

Additional information

NPB9781107012585
9781107012585
1107012589
Quantum Dots: Optics, Electron Transport and Future Applications by Alexander Tartakovskii (University of Sheffield)
Alexander Tartakovskii (University of Sheffield)
New
Hardback
Cambridge University Press
2012-07-19
378
N/A
Book picture is for illustrative purposes only, actual binding, cover or edition may vary.
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