Quantum Dots
Optics, Electron Transport and Future Applications
Herausgeber: Tartakovskii, Alexander
Quantum Dots
Optics, Electron Transport and Future Applications
Herausgeber: Tartakovskii, Alexander
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A comprehensive review of cutting-edge solid state research, focusing on quantum dot nanostructures, for graduate students and researchers.
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A comprehensive review of cutting-edge solid state research, focusing on quantum dot nanostructures, for graduate students and researchers.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
- Produktdetails
- Verlag: Cambridge University Press
- Seitenzahl: 378
- Erscheinungstermin: 14. Mai 2014
- Englisch
- Abmessung: 250mm x 175mm x 25mm
- Gewicht: 830g
- ISBN-13: 9781107012585
- ISBN-10: 1107012589
- Artikelnr.: 35407165
- Verlag: Cambridge University Press
- Seitenzahl: 378
- Erscheinungstermin: 14. Mai 2014
- Englisch
- Abmessung: 250mm x 175mm x 25mm
- Gewicht: 830g
- ISBN-13: 9781107012585
- ISBN-10: 1107012589
- Artikelnr.: 35407165
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. Vükovi¿; 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.
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. Vükovi¿; 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.
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. Vükovi¿; 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.
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. Vükovi¿; 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.